Example #1
0
//------------
//
void InitLogoMemory( void )
{
	int i, count;
    int countTvSvc, countRadioSvc;
	TYPE_TapChInfo	currentChInfo;

	TAP_Channel_GetTotalNum( &countTvSvc, &countRadioSvc );				// how many services are defined on this box?

	if ( countTvSvc > MAX_SERVICES/2 )
	{                                                                   // must quit if too many services
//	    ErrorPrint("Too many services");                                // TF5800 won't be affected	- so hack ok for us 
//		return;															// temp - must fix.
		countTvSvc = MAX_SERVICES/2;
	}
	if ( countRadioSvc > MAX_SERVICES/2 )
	{
		countRadioSvc = MAX_SERVICES/2;
	}


	for ( i=0; i<=countTvSvc; i++)										// for each TV service
	{
		TAP_Channel_GetInfo( SVC_TYPE_Tv, i, &currentChInfo );			// get the info pointer
		strcpy( logoArrayTv[i].svcName, currentChInfo.chName);			// and copy the channel's name

		logoArrayTv[i].svcLCN = currentChInfo.logicalChNum;				// service LCN
		logoArrayTv[i].svcNum = i;										// service number
		logoArrayTv[i].svcType = SVC_TYPE_Tv;							// service type (TV, or Radio)
		logoArrayTv[i].processedFlag = FALSE;							// no logo cached yet
		logoArrayTv[i].logo = TAP_MemAlloc( LOGO_DATA_SIZE );			// allocate space for the logo
		CreateFileName( &logoArrayTv[i] );								// filter out puntuation and generate a file name
	}

	for ( i=0; i<=countRadioSvc; i++)									// do the same for each radio service on this box
	{
		TAP_Channel_GetInfo( SVC_TYPE_Radio, i, &currentChInfo );
		strcpy( logoArrayRadio[i].svcName, currentChInfo.chName);

		logoArrayRadio[i].svcLCN = currentChInfo.logicalChNum;				// service LCN
		logoArrayRadio[i].svcNum = i;
		logoArrayRadio[i].svcType = SVC_TYPE_Radio;
		logoArrayRadio[i].processedFlag = FALSE;
		logoArrayRadio[i].logo = TAP_MemAlloc( LOGO_DATA_SIZE );
		CreateFileName( &logoArrayRadio[i] );							// filter out puntuation and generate a file name
	}

	maxTvSvc = countTvSvc;												// save the number of services for later
	maxRadioSvc = countRadioSvc;

	logoIndex = 0;
}
void *FMUC_ReserveMemory(char *Requester, dword size)
{
  tFMUC_MemDebug       *Mem;
  void                 *ret;
  dword                 NrReservations, NrTotalSize;

  ret = TAP_MemAlloc(size);
  return ret;

  Mem = FMUC_MemoryFindFree();
  if(Mem == NULL)
  {
    LogEntryFBLibPrintf(TRUE, "FMUC_ReserveMemory: no space in lookup table");
    return ret;
  }

  Mem->Requester = Requester;
  Mem->Size = size;
  Mem->Alloc = ret;


  FMUC_MemoryDump(&NrReservations, &NrTotalSize);
  LogEntryFBLibPrintf(TRUE, "FMUC: %s has requested %d bytes. Currently %d, %d bytes", Requester, size, NrReservations, NrTotalSize);

  return ret;
}
bool StringDBInit(tStringDB *StringDB, dword InitialSize)
{
  TRACEENTER();

  bool ret;

  if(!StringDB)
  {
    TRACEEXIT();
    return FALSE;
  }

  StringDB->DBSize = InitialSize;
  if(InitialSize)
  {
    StringDB->DB = TAP_MemAlloc(InitialSize);
    if(StringDB->DB) TAP_MemSet(StringDB->DB, 0, InitialSize);
  }
  else
    StringDB->DB = NULL;

  StringDB->DBPtr = StringDB->DB;
  StringDB->DBEnd = StringDB->DB;
  ret = (StringDB->DB != NULL) || (InitialSize == 0);

  TRACEEXIT();
  return ret;
}
void DialogWindowInfoAddIcon (dword X, dword Y, TYPE_GrData *IconGd)
{
  tDialogInfoItem       *item, *last = NULL;

  if (!FBDialogWindow) return;

  item = FBDialogWindow->InfoItems;

  while (item)
  {
    last = item;
    item = item->next;
  }

  if ((item = TAP_MemAlloc(sizeof(tDialogInfoItem))))
  {
    memset(item, 0, sizeof(tDialogInfoItem));

    item->ItemType = InfoIcon;
    item->X = X;
    item->Y = Y;
    item->data = IconGd;
    item->next = NULL;

    if (last) last->next = item;
    else FBDialogWindow->InfoItems = item;

    FBDialogWindow->OSDInfoForeDirty = TRUE;
  }
}
void SaveDatToFile( void )
{
	TYPE_File	*writeFile;
	int i;
	char	str[256];

    appendToLogfile("SaveDatToFile: Started.", INFO);
	playDataBuffer_ini = TAP_MemAlloc( PLAYBACKDATA_BUFFER_SIZE_ini );				// Buffer the write data to memory before writing all in one hit
	memset( playDataBuffer_ini, '\0', PLAYBACKDATA_BUFFER_SIZE_ini );				// set the whole buffer to the string termination character (null)
	playDataBufferPtr_ini = 0;

	TAP_SPrint(str, "%d\r\n", numberOfPlayedFiles);   // First entry is the number of played files.
	WriteStrToDatBuf( str );

    for (i = 0; i <= numberOfPlayedFiles; i++)
    {
         // Write entry TAB with delimited fields.
         // 1. startcluster
         // 2. current block position.
         // 3. total block size.
         // 4. filename.
         TAP_SPrint(str, "%d\t%d\t%d\t%s\r\n", playedFiles[i]->startCluster, playedFiles[i]->currentBlock, playedFiles[i]->totalBlock, playedFiles[i]->name); 
	     WriteStrToDatBuf( str );
    }

    appendToLogfile("SaveDatToFile: WriteDatFile called to write DATA file.", WARNING);
	WriteDatFile( writeFile );										// write all the data in one pass
	TAP_MemFree( playDataBuffer_ini );										// must return the memory back to the heap
    appendToLogfile("SaveDatToFile: Finished.", INFO);
}
Example #6
0
bool StringDBLoad(tStringDB *StringDB, char *FileName)
{
  TRACEENTER();

  int                   f;
  bool                  ret;
  dword                 l, p;
  char                  AbsFileName[FBLIB_DIR_SIZE];

  if(!StringDB || !StringDB->DB || !FileName || !*FileName)
  {
    TRACEEXIT();
    return FALSE;
  }

  ConvertPathType(FileName, AbsFileName, PF_FullLinuxPath);

  ret = FALSE;
  if(*AbsFileName)
  {
    f = open(AbsFileName, O_RDONLY);
    if(f >= 0)
    {
      TAP_MemFree(StringDB->DB);

      //DB Size
      read(f, &l, sizeof(dword));
      StringDB->DB = TAP_MemAlloc(l);

      if(!StringDB->DB)
      {
        StringDB->DBSize = 0;
        close(f);

        TRACEEXIT();
        return FALSE;
      }
      StringDB->DBSize = l;
      StringDB->DBEnd = l + StringDB->DB - 1;

      //Current pointer
      read(f, &p, sizeof(dword));
      StringDB->DBPtr = p + StringDB->DB;

      read(f, StringDB->DB, l);

      close(f);

      ret = TRUE;
    }
  }

  TRACEEXIT();
  return ret;
}
void LoadPlayData( void )
{
    int i;
    char str[200];
    
    appendToLogfile("LoadPlayData: Started.", INFO);
     
	if ( !ReadDatFile() )   // If we can't find/read the data file, create an empty one.
	{
        appendToLogfile("LoadPlayData: Call to ReadDatFile returned FALSE.", ERR);
		
        numberOfPlayedFiles = 1;
		
        playedFiles[0] = TAP_MemAlloc( sizeof (*playedFiles[0]));
        playedFiles[0]->startCluster = 0;   // Store the disk start cluster.
        playedFiles[0]->currentBlock = 0;   // Store the current block position.
        playedFiles[0]->totalBlock   = 1;   // Store the total block size. Set to 1 to ensure no division by 0 errors.
        strcpy(playedFiles[0]->name,"Placeholder for last played file.rec");        // Store the file name.
        
        playedFiles[1] = TAP_MemAlloc( sizeof (*playedFiles[1]));
        playedFiles[1]->startCluster = 12345678;   // Store the disk start cluster.
        playedFiles[1]->currentBlock = 9876543;   // Store the current block position.
        playedFiles[1]->totalBlock   = 9999999;   // Store the total block size.
        strcpy(playedFiles[1]->name,"This is a dummy filename.rec");        // Store the file name.

        appendToLogfile("LoadPlayData: Calling SaveDataToFile for new file.", ERR);
		SaveDatToFile();
	}
	playbackInfoTick = TAP_GetTick();		// Set timer to indicate when we retrieved the playback information.
	playinfoChanged  = FALSE;               // We've just loaded the data, so it hasn't changed yet.

/*
    TAP_Print("\r\n from loading numberOfPlayedFiles=%d \r\n",numberOfPlayedFiles);
    for (i = 1; i<=numberOfPlayedFiles; i ++)
    {
         TAP_Print("%d<< %d<< %d<<\r\n", playedFiles[i]->startCluster, playedFiles[i]->currentBlock, playedFiles[i]->totalBlock); 
         TAP_Print("%s<<\r\n", playedFiles[i]->name); 
    }
*/
    appendToLogfile("LoadPlayData: Finished.", INFO);

}
Example #8
0
bool ReadConfigurationFile( void )
{
	TYPE_File *readFile = NULL;
	int	i = 0;
	dword	fileLength = 0;
	bool	schSaveIniFile = FALSE;

	GotoPath( SETTINGS_FOLDER );
	if ( ! TAP_Hdd_Exist( OPTIONS_FILENAME ) )
	{
		GotoTapDir();
		TAP_Hdd_ChangeDir( PROJECT_DIRECTORY );
		if ( ! TAP_Hdd_Exist( OPTIONS_FILENAME ) ) return FALSE;

		schSaveIniFile = TRUE;
	}
	
	readFile = TAP_Hdd_Fopen( OPTIONS_FILENAME );
	if ( readFile == NULL ) return FALSE;						// and we can open it ok

	dataBuffer_ini = TAP_MemAlloc( DATA_BUFFER_SIZE_ini );				// Read the data in one hit (quicker), then process from RAM
	memset( dataBuffer_ini, '\0', DATA_BUFFER_SIZE_ini );				// set the whole buffer to the string termination character (null)
	dataBufferPtr_ini = 0;

	fileLength = TAP_Hdd_Flen( readFile );						// how big is the file
	if ( fileLength > DATA_BUFFER_SIZE_ini  ) fileLength = DATA_BUFFER_SIZE_ini;	// ensure we don't overflow the buffer
	
	TAP_Hdd_Fread( dataBuffer_ini, fileLength, 1, readFile );			// grab all the data from the file

	TAP_Hdd_Fclose( readFile );

	if(SetConfigurationVariables() == FALSE)
	{
		TAP_MemFree( dataBuffer_ini );						// must return the memory back to the heap

		SaveConfigurationToFile();
	}
	else
	{
		TAP_MemFree( dataBuffer_ini );						// must return the memory back to the heap
	}

	if(schSaveIniFile == TRUE)
	{
		SaveConfigurationToFile();

		GotoTapDir();
		TAP_Hdd_ChangeDir( PROJECT_DIRECTORY );

		if ( TAP_Hdd_Exist( OPTIONS_FILENAME ) ) TAP_Hdd_Delete( OPTIONS_FILENAME );
	}

	return TRUE;
}
Example #9
0
//---------------
//
void KeyAdd( keyCodes_Struct *keyCodes, dword key, char *description )
{
    key_Struct	*newItem;

    if ( keyCodes->count >= MAX_NUMBER_OF_KEYS ) return;				// bounds check
    keyCodes->count++;

    newItem = TAP_MemAlloc( sizeof( key_Struct ) );						// allocate some memory to store the pointers to the strings
    newItem->keyCode = key;												// note, the strings are not copied, they remain in the source code.
    newItem->ButtonText = description;
    keyCodes->keys[ keyCodes->count ] = newItem;						// point to the newly allocated memory
}
Example #10
0
void MenuAdd( menu_Struct *menu, char *title, char *description )
{
	menuItem_Struct	*newItem;
    
	if ( menu->count >= MAX_NUMBER_OF_MENU_ITEMS ) return;				// bounds check
    menu->count++;

	newItem = TAP_MemAlloc( sizeof( menuItem_Struct ) );				// allocate some memory to store the pointers to the strings
	newItem->title = title;												// note, the strings are not copied, they remain in the source code.
	newItem->description = description;
	menu->items[ menu->count ] = newItem;								// point to the newly allocated memory
}
Example #11
0
void SaveConfigurationToFile( void )
{
	TYPE_File	*writeFile = NULL;
	int	i = 0;
	char	str[256];

	dataBuffer_ini = TAP_MemAlloc( DATA_BUFFER_SIZE_ini );		// Buffer the write data to memory before writing all in one hit
	memset( dataBuffer_ini, '\0', DATA_BUFFER_SIZE_ini );		// set the whole buffer to the string termination character (null)
	dataBufferPtr_ini = 0;

	switch ( unitModelType )
	{
		case TF5800 : TAP_SPrint(str, "TF5800\r\n" ); break;
		case TF5000 : TAP_SPrint(str, "TF5000\r\n" ); break;
		default	: TAP_SPrint(str, "BAD\r\n" ); break;
	}
	WriteStrToIniBuf( str );

	TAP_SPrint(str, "%d\r\n", mainActivationKey );
	WriteStrToIniBuf( str );

	TAP_SPrint(str, "%d\r\n", schMainPerformSearchMode );
	WriteStrToIniBuf( str );

	TAP_SPrint(str, "%d\r\n", schMainPerformSearchTime );
	WriteStrToIniBuf( str );

	TAP_SPrint(str, "%d\r\n", FirmwareCallsEnabled );
	WriteStrToIniBuf( str );

	TAP_SPrint(str, "%d\r\n", schMainTRCEnabled );
	WriteStrToIniBuf( str );

	TAP_SPrint(str, "%d\r\n", schMainPerformSearchDays );
	WriteStrToIniBuf( str );

	TAP_SPrint(str, "%d\r\n", schMainDateFormat );
	WriteStrToIniBuf( str );

	TAP_SPrint(str, "%d\r\n", schMainTimeFormat );
	WriteStrToIniBuf( str );

	TAP_SPrint(str, "%d\r\n", keyboardLanguage );
	WriteStrToIniBuf( str );

	TAP_SPrint(str, "%d\r\n", schMainConflictOption );
	WriteStrToIniBuf( str );

	WriteIniFile( writeFile );					// write all the data in one pass

	TAP_MemFree( dataBuffer_ini );					// must return the memory back to the heap
}
TAPCOM_Channel TAPCOM_OpenChannel(dword TargetID, dword ServiceID, dword ParamBlockVersion, void *ParamBlock)
{
  TRACEENTER();

  TAPCOM_InternalMesBuf *mesBuf = NULL;

  if(!LibInitialized && !InitTAPex())
  {
    TRACEEXIT();
    return NULL;
  }

  mesBuf = (TAPCOM_InternalMesBuf *) TAP_MemAlloc(sizeof(TAPCOM_InternalMesBuf));

  if(mesBuf)
  {
    // Speicherbereich für Nachrichtenaustausch anlegen
    mesBuf->tapcomSignature     = TAPCOM_SIGNATURE;
    mesBuf->tapcomVersion       = TAPCOM_VERSION;
    mesBuf->ServerAlive         = 0;
    mesBuf->FromID              = __tap_ud__;
    mesBuf->ToID                = TargetID;
    mesBuf->ServiceID           = ServiceID;
    mesBuf->ParamBlockVersion   = ParamBlockVersion;
    mesBuf->ParamBlock          = ParamBlock;
    mesBuf->Status              = TAPCOM_Status_OPEN;
    mesBuf->ReturnVal           = 0;
    mesBuf->Reserved            = 0;

    //Existiert der Ziel-Server überhaupt?
    if((TargetID != TAPCOM_App_BROADCAST) && !HDD_TAP_isRunning(TargetID))
    {
      mesBuf->Status = TAPCOM_Status_SERVER_NOT_AVAILABLE;
    }
    else
    {
      // TAPCOM Event mit der Adresse des Message-Buffers versenden.
      HDD_TAP_SendEvent(TargetID, FALSE, EVT_TAPCOM, (dword) mesBuf, 0);
    }
  }

  TRACEEXIT();
  return (TAPCOM_Channel) mesBuf;
}
void LogoManager_ProcessLILAdd(char *AddFileName)
{
  TRACEENTER();

  TYPE_File            *f;
  int                   fs;
  char                 *Text, Line[80];

  HDD_TAP_PushDir();
  HDD_ChangeDir(LOGOROOT);
  INIOpenFile(LILNAME, NULL);

  f = TAP_Hdd_Fopen(AddFileName);
  if(f)
  {
    fs = TAP_Hdd_Flen(f);
    Text = TAP_MemAlloc(fs+1);
    if(Text)
    {
      TAP_Hdd_Fread(Text, 1, fs, f);
      Text[fs] = '\0';

      while(*Text)
      {
        ExtractLine(Text, Line);
        if(Line[0] == '0' && Line[1] == 'x' && Line[18] == '=')
        {
          LowerCase(Line);
          Line[18] = '\0';
          INISetString(&Line[2], &Line[19]);
        }
      }
      TAP_MemFree(Text);
    }
    TAP_Hdd_Fclose(f);
  }

  INISaveFile(LILNAME, INILOCATION_AtCurrentDir, NULL);
  INICloseFile();
  HDD_TAP_PopDir();

  TRACEEXIT();
}
void SetDatVariables( void )
{
    int index;
     
	numberOfPlayedFiles = ReadDatDecimal();  // First entry is the number of played files.
	
	if (numberOfPlayedFiles > MAX_FILES)  // Boundary check.
	   numberOfPlayedFiles = MAX_FILES;

    for (index = 0; index<=numberOfPlayedFiles; index ++)
    {
         playedFiles[index] = TAP_MemAlloc( sizeof (*playedFiles[index]));
         playedFiles[index]->startCluster = ReadDatDecimal();   // Read the disk start cluster.
         playedFiles[index]->currentBlock = ReadDatDecimal();   // Read the current block position.
         playedFiles[index]->totalBlock   = ReadDatDecimal();   // Read the total block size.
         strcpy(playedFiles[index]->name,ReadDatField());        // Read the file name.
    }

}
Example #15
0
bool StrMkUTF8(byte *SourceString, byte DefaultISO8859CharSet)
{
  TRACEENTER();

  char                 *_utf8string, *pEOS;
  int                   l;

  if(!SourceString)
  {
    TRACEEXIT();
    return FALSE;
  }

  //To handle UTF32 strings correctly, SourceString need to be terminated by 4 NULL bytes
  pEOS = SourceString;
  while(pEOS[0] || pEOS[1] || pEOS[2] || pEOS[3])
    pEOS++;

  l = ((dword)pEOS - (dword)SourceString) << 2;
  if(l == 0)
  {
    *SourceString = '\0';

    TRACEEXIT();
    return TRUE;
  }

  _utf8string = TAP_MemAlloc(l);
  if(!_utf8string)
  {
    TRACEEXIT();
    return FALSE;
  }

  memset(_utf8string, 0, l);
  StrToUTF8(SourceString, _utf8string, DefaultISO8859CharSet);
  strcpy(SourceString, _utf8string);
  TAP_MemFree(_utf8string);

  TRACEEXIT();
  return TRUE;
}
bool StringDBLoadFromFile(tStringDB *StringDB, TYPE_File *f)
{
  TRACEENTER();

  dword                 l, p;

  if(!StringDB || !f)
  {
    TRACEEXIT();
    return FALSE;
  }

  TAP_MemFree(StringDB->DB);

  //DB Size
  TAP_Hdd_Fread(&l, sizeof(dword), 1, f);
  StringDB->DB = TAP_MemAlloc(l);

  if(!StringDB->DB)
  {
    StringDB->DBSize = 0;
    TAP_Hdd_Fclose(f);

    TRACEEXIT();
    return FALSE;
  }
  StringDB->DBSize = l;
  StringDB->DBEnd = l + StringDB->DB - 1;

  //Current pointer
  TAP_Hdd_Fread(&p, sizeof(dword), 1, f);
  StringDB->DBPtr = p + StringDB->DB;

  TAP_Hdd_Fread(StringDB->DB, 1, l, f);

  TRACEEXIT();
  return TRUE;
}
Example #17
0
//------------
//
void populateMoveFileList(void)
{
     int  index, numberOfEntries;

     appendToLogfile("populateMoveFileList: Started.", WARNING);

     numberOfEntries = myfolders[CurrentDirNumber]->numberOfFiles;
 	 
 	 numberOfDestinationFolders = 0;
     for ( index=1; index<=numberOfEntries ; index++)
	 {
        switch (myfiles[CurrentDirNumber][index]->attr)
        {
           case PARENT_DIR_ATTR:
           case 240:          // Parent Directory  ".."
           case ATTR_FOLDER:  // Normal Folder
                              // Make sure we don't include the current folder that we may be trying to move.
                              if (index == chosenLine) break;
                              
                              numberOfDestinationFolders++;
                              if (moveFiles[numberOfDestinationFolders] == NULL)
                              {
                                  moveFiles[numberOfDestinationFolders] = TAP_MemAlloc( sizeof  (*moveFiles[numberOfDestinationFolders])); 
                              }    
                              memset(moveFiles[numberOfDestinationFolders],0,sizeof (*moveFiles[numberOfDestinationFolders]));
                              if (myfiles[CurrentDirNumber][index]->attr == ATTR_FOLDER)  // Normal folder so use the folder name.
	                              strcat(moveFiles[numberOfDestinationFolders]->name, myfiles[CurrentDirNumber][index]->name);
	                          else // Parent Directory, so use ".."    
	                              strcat(moveFiles[numberOfDestinationFolders]->name, "..");
	                          break;
           case ATTR_TS:
           default:
		                      break;
        }		

	 }
     appendToLogfile("populateMoveFileList: Finished.", WARNING);
}
bool ReadDatFile( void )
{
	TYPE_File *readFile;
	int i;
	dword fileLength;

    appendToLogfile("ReadDatFile: Started.", INFO);

	GotoPath( TAPIniDir );
	if ( ! TAP_Hdd_Exist( PLAYDATA_FILENAME ) ) 
    {
         appendToLogfile("ReadDatFile: no PLAYDATA file found.", ERR);
         return FALSE;			// check the ini file exits in the current directory
    }     
	
	readFile = TAP_Hdd_Fopen( PLAYDATA_FILENAME );
	if ( readFile == NULL ) return FALSE;								// and we can open it ok

	playDataBuffer_ini = TAP_MemAlloc( PLAYBACKDATA_BUFFER_SIZE_ini );	// Read the data in one hit (quicker), then process from RAM
	memset( playDataBuffer_ini, '\0', PLAYBACKDATA_BUFFER_SIZE_ini );	// set the whole buffer to the string termination character (null)
	playDataBufferPtr_ini = 0;

	fileLength = TAP_Hdd_Flen( readFile );								// how big is the file
	if ( fileLength > PLAYBACKDATA_BUFFER_SIZE_ini  ) fileLength = PLAYBACKDATA_BUFFER_SIZE_ini;	// ensure we don't overflow the buffer
	
	TAP_Hdd_Fread( playDataBuffer_ini, fileLength, 1, readFile );			// grab all the data from the file

	TAP_Hdd_Fclose( readFile );

	SetDatVariables();

	TAP_MemFree( playDataBuffer_ini );										// must return the memory back to the heap

    appendToLogfile("ReadDatFile: Finished.", INFO);

	return TRUE;
}
Example #19
0
//------------
//
void ReadLogoFile()
{
	TYPE_File	*logoFile;
	TYPE_logoArray *logoPointer;
	dword		dataSize;
	byte		*junkBuffer;
	char		channelName[CHANNEL_NAME_SIZE];
	int i; //+++

//	TAP_Hdd_ChangeDir("UK TAP Project");
	GotoPath( TAPIniDir );
	if ( ! TAP_Hdd_Exist( "logo.dat" ) ) return;						// check our logo file exits in the current directory
	
	logoFile = TAP_Hdd_Fopen( "logo.dat" );
	if ( logoFile == NULL ) return;										// and we can open it ok

    junkBuffer = TAP_MemAlloc(LOGO_DATA_SIZE);							// create a place to read in unwanted logos
	
	while ( TAP_Hdd_Ftell( logoFile ) < TAP_Hdd_Flen( logoFile ) )		// Keep reading logos until we reach the end of file
	{
		TAP_Hdd_Fread( channelName, CHANNEL_NAME_SIZE, 1, logoFile );	// read the channel name
		if ( findChannelPointer( channelName, &logoPointer ) )			// cross referece the array to find this entry
		{																// if the channel exists ->
			TAP_Hdd_Fread( logoPointer->logo, LOGO_DATA_SIZE, 1, logoFile );	// read the logo bitmap
			logoPointer->processedFlag = TRUE;							// mark this channel as having a logo in the cache
		}
		else
		{																// else channel doesn't appear in service list ->
			TAP_Hdd_Fread( junkBuffer, LOGO_DATA_SIZE, 1, logoFile );	// must read the logo, otherwise read pointer will get stuck
		}
	}

	TAP_Hdd_Fclose( logoFile );
//	TAP_Hdd_ChangeDir("..");											// return to original directory
	TAP_MemFree( junkBuffer );
}
Example #20
0
void LogEntryGeneric(char *ProgramName, bool Console, char *Text)
{
    TRACEENTER();

    char                 *s;
    int                   l;
    TYPE_File             *File;
    char                  TimeResult[40];
    char                  CRLF[] = {'\r', '\n'};
    byte                  Sec;
    byte                 *ISOText;

#define FILENAME      "TAPSystem.log"

    if(!ProgramName || !Text)
    {
        TRACEEXIT();
        return;
    }

    HDD_TAP_PushDir();
    if(!HDD_ChangeDir("/ProgramFiles/Settings"))
    {
        HDD_ChangeDir("/ProgramFiles");
        if(!TAP_Hdd_Exist("Settings")) TAP_Hdd_Create("Settings", ATTR_FOLDER);
        HDD_ChangeDir("Settings");
    }

    l = strlen(ProgramName) + strlen(Text) + 4;
    s = TAP_MemAlloc(l);
    if(s)
    {
        memset(s, 0, l);
        TAP_SPrint(s, "%s: %s", ProgramName, Text);
        StrToISOAlloc(s, &ISOText);
        if(ISOText)
        {
            TimeFormat(Now(&Sec), Sec, TIMESTAMP_YMDHMS, TimeResult);
            strcat(TimeResult, " ");

            if(!TAP_Hdd_Exist(FILENAME)) TAP_Hdd_Create(FILENAME, ATTR_NORMAL);
            if((File = TAP_Hdd_Fopen(FILENAME)) != NULL)
            {
                TAP_Hdd_Fseek(File, 0, SEEK_END);
                TAP_Hdd_Fwrite(TimeResult, strlen(TimeResult), 1, File);
                TAP_Hdd_Fwrite(ISOText, strlen(ISOText), 1, File);
                TAP_Hdd_Fwrite(CRLF, 2, 1, File);
                TAP_Hdd_Fclose(File);
            }

            if(Console)
            {
                TAP_PrintNet("%s%s\n", TimeResult, ISOText);
            }

            TAP_MemFree(ISOText);
        }
        TAP_MemFree(s);
    }
    HDD_TAP_PopDir();

    TRACEEXIT();
}
void CheckPlaybackStatus( void )
{
   bool         matchFound;
   int          i, l, l1, l2;
  
     
   // Check for Playbackmode
   iOverRunCheck = ApiOverRunCheck;   // Set flag to catch any buffer overrun from API call.
   TAP_Hdd_GetPlayInfo (&CurrentPlaybackInfo);

   if ( iOverRunCheck != ApiOverRunCheck )  // TAP_Hdd_GetPlayInfo V1.22 has a buffer overrun issue, so check if it has overrun by more than 128 bytes.
   {
      ShowMessageWin( rgn, "Archive:  Error retrieving Playback Info", "TAP_Hdd_GetPlayInfo buffer overrun", "in 'CheckPlaybackStatus'.", 500 );
      return;
   }

   // Check the various playmodes to see if we are playing a file back.
   // PLAYMODE_None               Nothing playing
   // PLAYMODE_Playing            Playing a file
   // PLAYMODE_RecPlaying         Playing a currently recording file
   //
   // If we're not in playback then just return.
   if (CurrentPlaybackInfo.playMode != PLAYMODE_Playing)   // We're not in playback mode  
   {
       if (inPlaybackMode) // We were in playback mode, but now we've stopped.
       {
           SaveDatToFile(); // Write the information (particularly the last played file details) to disk
       }
       inPlaybackMode = FALSE;
       return;
   }    
   
   inPlaybackMode = TRUE;

   // Assign variable to the file entry for easier use.
   CurrentPlaybackFile = CurrentPlaybackInfo.file;
   
   // Copy the current playing info to the 'last' variable so we can restart the very last playback.
   playedFiles[0]->startCluster = CurrentPlaybackFile->startCluster;   // Save the disk start cluster.
   playedFiles[0]->currentBlock = CurrentPlaybackInfo.currentBlock;   // Save the current block position.
   playedFiles[0]->totalBlock   = CurrentPlaybackInfo.totalBlock;     // Save the total block size.
   strcpy(playedFiles[0]->name,CurrentPlaybackFile->name);        // Save the file name.
   
   matchFound = FALSE;
   
   // Search through the existing played file list to see if we have a match.
   for (i=1; i<=numberOfPlayedFiles; i++)
   {
        l1 = strlen(playedFiles[i]->name);
        l2 = strlen(CurrentPlaybackFile->name);
        l = max(l1, l2);
        if ((playedFiles[i]->startCluster == CurrentPlaybackFile->startCluster) && (strncmp(playedFiles[i]->name,CurrentPlaybackFile->name,TS_FILE_NAME_SIZE)==0))
        {
              // If we match an existing entry in our playedFiles array, update the currentBlock position information.
              playedFiles[i]->currentBlock = CurrentPlaybackInfo.currentBlock;
              matchFound = TRUE;
              break; // We've found a match, so don't bother checking other playback entries.
        }
   }

   // If we didn't find a match in our existing list of played files, so add to our list if we have space.   
   if ((!matchFound) && (numberOfPlayedFiles < MAX_FILES) && (strcmp(CurrentPlaybackFile->name,"__temprec__.ts")!=0))
   {
         numberOfPlayedFiles++;  // Increase the number of Played Files.
         playedFiles[numberOfPlayedFiles] = TAP_MemAlloc( sizeof (*playedFiles[numberOfPlayedFiles]));
         playedFiles[numberOfPlayedFiles]->startCluster = CurrentPlaybackFile->startCluster;   // Save the disk start cluster.
         playedFiles[numberOfPlayedFiles]->currentBlock = CurrentPlaybackInfo.currentBlock;   // Save the current block position.
         playedFiles[numberOfPlayedFiles]->totalBlock   = CurrentPlaybackInfo.totalBlock;     // Save the total block size.
         strcpy(playedFiles[numberOfPlayedFiles]->name,CurrentPlaybackFile->name);        // Save the file name.
         playinfoChanged = TRUE;  // Set flag so that playback info will get written to disk.
   }     
        
                
     
}
Example #22
0
char* GetCurrentDir(void)
{
    dword cluster;
    char* path;
    TYPE_File file;
    char* temp;
                    
    appendToLogfile("GetCurrentDir: started.");

    path = TAP_MemAlloc (2);

    if (path == NULL) 
    {
             appendToLogfile("GetCurrentDir: TAP_MemAlloc (2) failed.");
             return NULL;
    }         
    appendToLogfile("GetCurrentDir: after memalloc.");

    strcpy (path, "");
    path[0]='\0';

    // while we have a '.' entry we work up the tree matching starting clusters
    while (CurrentDirStartCluster (&cluster))
    {
//        TYPE_File file;
        // move into parent directory and look for a starting cluster match
        TAP_Hdd_ChangeDir ("..");
        memset (&file, 0, sizeof (file));
        if (TAP_Hdd_FindFirst (&file))
        {
            while ((cluster != file.startCluster) && TAP_Hdd_FindNext (&file)) {};
        }
        // if we have a match prepend it to the path
        if (cluster == file.startCluster)
        {
//            char* temp;

            temp = TAP_MemAlloc (strlen (path) + strlen (file.name) + 2);

            // no memory - back to starting directory and return NULL
            if (temp == NULL)
            {
                appendToLogfile("GetCurrentDir: TAP_MemAlloc (strlen path) failed.");
                TAP_Hdd_ChangeDir (file.name);
                if (strlen (path)) TAP_Hdd_ChangeDir (&path[1]);
                TAP_MemFree (path);
                return NULL;
            }

            appendStringToLogfile("GetCurrentDir: Match on file=%s",file.name);

            // There's an issue where we may find the "." directory entry instead of the subdir -
            // so for now, let's ignore it.   5 Nov 2005
            if (strcmp(file.name,".")!=0)
            {
               strcpy (temp, "/");
               strcat (temp, file.name);
               strcat (temp, path);
               TAP_MemFree (path);
               path = temp;
               appendStringToLogfile("GetCurrentDir: Path now=%s",path);
            }
        }
        else
        {
            // directory structure inconsistent, shouldn't get here
            // problem - we can't get back to our starting directory
            TAP_MemFree (path);
            appendStringToLogfile("GetCurrentDir: Bombed out.",file.name);
            return NULL;
        }
    }
    if (strlen (path))
    {
        // finally we put ourselves back in our starting directory
        //TAP_Hdd_ChangeDir (&path[1]);
        appendToLogfile("GetCurrentDir: Found current directory.");
        appendStringToLogfile("GetCurrentDir: It's %s.",path);
        GotoPath(path);
    }
    else
    {
        // We're at the root
        strcpy (path, "/");
        appendStringToLogfile("GetCurrentDir: Found at ROOT.",file.name);
    }

    return (path);
}
Example #23
0
dword StringDBAdd(tStringDB *StringDB, char *Text)
{
  TRACEENTER();

  char                 *p;
  dword                 ret;

  if(!StringDB || !Text)
  {
    TRACEEXIT();
    return 0;
  }

  p = StringDB->DB;
  while(p < StringDB->DBEnd)
  {
    if(!strcmp(p, Text))
    {
      ret = (dword)p - (dword)StringDB->DB;

      TRACEEXIT();
      return ret;
    }

    p += (strlen(p) + 1);
  }

  if(((StringDB->DBEnd - StringDB->DB) + strlen(Text) + 2) > StringDB->DBSize)
  {
    int                 NewStringDBSize;
    char               *NewStringDB;

    if(StringDB->DBSize == 0)
      NewStringDBSize = 2 * strlen(Text);
    else
      NewStringDBSize = StringDB->DBSize + 4096;

    NewStringDB = TAP_MemAlloc(NewStringDBSize);
    if(!NewStringDB)
    {
      TRACEEXIT();
      return 0;
    }

    memset(NewStringDB, 0, NewStringDBSize);
    memcpy(NewStringDB, StringDB->DB, StringDB->DBSize);
    TAP_MemFree(StringDB->DB);

    StringDB->DBPtr = StringDB->DBPtr - StringDB->DB + NewStringDB;
    StringDB->DBEnd = StringDB->DBEnd - StringDB->DB + NewStringDB;

    StringDB->DB = NewStringDB;
    StringDB->DBSize = NewStringDBSize;
  }
  p = StringDB->DBEnd;
  strcpy(StringDB->DBEnd, Text);
  StringDB->DBEnd = StringDB->DBEnd + strlen(Text) + 1;
  ret = (dword)p - (dword)StringDB->DB;

  TRACEEXIT();
  return ret;
}
int LogoManager_UpdateLIL(void)
{
  TRACEENTER();

  typedef struct
  {
    ulong64             ChannelID;
    char                Name[MAXLOGONAME+1];
  }tNewIDs;

  int                   nTvSvc, nRadioSvc;
  int                   i;
  TYPE_TapChInfo        chInfo;
  char                  s[255], LogoName[MAX_SvcName + 1];
  SYSTEM_TYPE           SystemType;
  tFlashSatTable        SatInfo;

  word                  SatPos;
  ulong64               ChannelID;
  tNewIDs              *NewIDs;
  int                   NewIDCount;

  SystemType = GetSystemType();

  HDD_TAP_PushDir();
  HDD_ChangeDir(LOGOROOT);

  TAP_Channel_GetTotalNum(&nTvSvc, &nRadioSvc);
  NewIDs = TAP_MemAlloc((nTvSvc + nRadioSvc) * sizeof(tNewIDs));
  NewIDCount = 0;

  INIOpenFile(LILNAME, NULL);

  for(i = 0; i < nTvSvc; i++)
  {
    TAP_Channel_GetInfo(SVC_TYPE_Tv, i, &chInfo);
    FlashSatTablesGetInfo(chInfo.satIdx, &SatInfo);

    switch(SystemType)
    {
      case ST_S:
      case ST_TMSS:
      {
        SatPos = SatInfo.SatPosition;
        break;
      }

      default:
        SatPos = 0;
        break;
    }

    ChannelID = LogoManager_CalculateChannelID(SatPos, chInfo.orgNetId, chInfo.tsId, chInfo.svcId);
    TAP_SPrint(s, "%16.16llx", ChannelID);
    if(!INIKeyExists(s))
    {
      NewIDs[NewIDCount].ChannelID = ChannelID;
      strcpy(NewIDs[NewIDCount].Name, LogoManager_ChannelNameToLogoName(chInfo.chName, LogoName, sizeof(LogoName)));
      if(NewIDs[NewIDCount].Name[0]) NewIDCount++;
    }
  }

  for(i = 0; i < nRadioSvc; i++)
  {
    TAP_Channel_GetInfo(SVC_TYPE_Radio, i, &chInfo);
    FlashSatTablesGetInfo(chInfo.satIdx, &SatInfo);

    switch(SystemType)
    {
      case ST_S:
      case ST_TMSS:
      {
        SatPos = SatInfo.SatPosition;
        break;
      }

      default:
        SatPos = 0;
        break;
    }

    ChannelID = LogoManager_CalculateChannelID(SatPos, chInfo.orgNetId, chInfo.tsId, chInfo.svcId);
    TAP_SPrint(s, "%16.16llx", ChannelID);
    if(!INIKeyExists(s))
    {
      NewIDs[NewIDCount].ChannelID = ChannelID;
      TAP_SPrint(NewIDs[NewIDCount].Name, "r_%s", LogoManager_ChannelNameToLogoName(chInfo.chName, LogoName, sizeof(LogoName)));
      if(NewIDs[NewIDCount].Name[0]) NewIDCount++;
    }
  }

  INICloseFile();

  if(NewIDCount > 0)
  {
    TYPE_File          *f;
    word                year;
    byte                month, day, weekDay;

    if(!TAP_Hdd_Exist(LILNAME)) TAP_Hdd_Create(LILNAME, ATTR_NORMAL);
    f = TAP_Hdd_Fopen(LILNAME);

    if(!f)
    {
      HDD_TAP_PopDir();
      if(LogoManager_CB) LogoManager_CB(-1, 3);

      TRACEEXIT();
      return -1;
    }

    TAP_Hdd_Fseek(f, 0, SEEK_END);
    TAP_ExtractMjd(Now(NULL) >> 16, &year, &month, &day, &weekDay);
    TAP_SPrint(s, "\n\n# Added %4.4d-%2.2d-%2.2d\n", year, month, day);
    TAP_Hdd_Fwrite(s, 1, strlen(s), f);

    for(i = 0; i < NewIDCount; i++)
    {
      TAP_SPrint(s, "%16.16llx=%s\n", NewIDs[i].ChannelID, NewIDs[i].Name);
      TAP_Hdd_Fwrite(s, 1, strlen(s), f);
    }
    TAP_Hdd_Fclose(f);
    if(LogoManager_CB) LogoManager_CB(5, NewIDCount);

  }
void LogoManager_LogoCacheRebuild(void)
{
  TRACEENTER();

  char                  ID[4];
  dword                 Version;
  TYPE_File            *f, *fLogo;
  int                   i, j, k, NrFiles;
  TYPE_FolderEntry      FolderEntry;
  dword                 LogoIndex;
  byte                 *PixelData, *TempBuffer;
  dword                 BufferSize, CompressedSize;
  TYPE_GrData          *grData;
  int                   LogosConverted;
  char                  LogoPath[FBLIB_DIR_SIZE];

  if(LogoManager_CB) LogoManager_CB(2, -1);

  //Step 1: Kill the current cache
  HDD_TAP_PushDir();
  HDD_ChangeDir(LOGOROOT);
  TAP_Hdd_Delete(LOGOCACHE);

  //Step 2: iterate through all directories and count the number of logos
  LogoManager_NrLogos = 0;
  for(i = LGST_3pgstyle; i < LGST_NRITEMS; i++)
  {
    for(j = LGAR_43; j < LGAR_NRITEMS; j++)
    {
      if(HDD_ChangeDir(LogoManager_GetDirectory(i, j, LogoPath)))
      {
        NrFiles = TAP_Hdd_FindFirst(&FolderEntry, "qtl|qsl|ibl");
        for(k = 0; k < NrFiles; k++)
        {
          if(FolderEntry.attr == ATTR_NORMAL)
          {
            FixInvalidFileName(FolderEntry.name);
            LogoManager_NrLogos++;
          }
          TAP_Hdd_FindNext(&FolderEntry);
        }
      }
    }
  }
  if(LogoManager_CB) LogoManager_CB(3, LogoManager_NrLogos);


  //Step 3: build the basic cache file
  LogosConverted = 0;
  if(LogoManager_LogoData) TAP_MemFree(LogoManager_LogoData);
  LogoManager_LogoData = TAP_MemAlloc(LogoManager_NrLogos * sizeof(tLogoData));
  if(LogoManager_LogoData)
  {
    memset(LogoManager_LogoData, 0, LogoManager_NrLogos * sizeof(tLogoData));
    HDD_ChangeDir(LOGOROOT);
    if(!TAP_Hdd_Exist(LOGOCACHE)) TAP_Hdd_Create(LOGOCACHE, ATTR_NORMAL);
    f = TAP_Hdd_Fopen(LOGOCACHE);
    if(f)
    {
      strcpy(ID, LOGOCACHEID);
      Version = LOGOCACHEVERSION;

      TAP_Hdd_Fwrite(ID, 4, 1, f);
      TAP_Hdd_Fwrite(&Version, sizeof(dword), 1, f);
      TAP_Hdd_Fwrite(&LogoManager_NrLogos, sizeof(dword), 1, f);
      TAP_Hdd_Fwrite(LogoManager_LogoData, sizeof(tLogoData), LogoManager_NrLogos, f);

      //Step 4: iterate through all directories again, compress the data and save it to the cache
      LogoIndex = 0;
      for(i = LGST_3pgstyle; i < LGST_NRITEMS; i++)
      {
        for(j = LGAR_43; j < LGAR_NRITEMS; j++)
        {
          if(HDD_ChangeDir(LogoManager_GetDirectory(i, j, LogoPath)))
          {
            NrFiles = TAP_Hdd_FindFirst(&FolderEntry, "qtl|qsl|ibl");
            for(k = 0; k < NrFiles; k++)
            {
              if(LogoManager_CB) LogoManager_CB(2, LogosConverted * 100 / LogoManager_NrLogos);

              if(FolderEntry.attr == ATTR_NORMAL)
              {
                LogoManager_LogoData[LogoIndex].ChannelID = 0;
                strncpy(LogoManager_LogoData[LogoIndex].LogoName, FolderEntry.name, MAXLOGONAME);
                LogoManager_LogoData[LogoIndex].LogoName[MAXLOGONAME] = '\0';
                LogoManager_LogoData[LogoIndex].LogoName[strlen(LogoManager_LogoData[LogoIndex].LogoName) - 4] = '\0';
                LogoManager_LogoData[LogoIndex].Style  = i;

                if(StringEndsWith(FolderEntry.name, ".qtl")) LogoManager_LogoData[LogoIndex].Size = LGSZ_qtl;
                if(StringEndsWith(FolderEntry.name, ".qsl")) LogoManager_LogoData[LogoIndex].Size = LGSZ_qsl;
                if(StringEndsWith(FolderEntry.name, ".ibl")) LogoManager_LogoData[LogoIndex].Size = LGSZ_ibl;

                LogoManager_LogoData[LogoIndex].Aspect = j;
                LogoManager_LogoData[LogoIndex].grData = NULL;

                fLogo = TAP_Hdd_Fopen(FolderEntry.name);
                if(fLogo)
                {
                  BufferSize = TAP_Hdd_Flen(fLogo) - 8;
                  PixelData = TAP_MemAlloc(BufferSize + 8);
                  TempBuffer = TAP_MemAlloc(sizeof(TYPE_GrData) + BufferSize);
                  if(PixelData && TempBuffer)
                  {
                    TAP_Hdd_Fread(PixelData, BufferSize + 8, 1, fLogo);
                    CompressedSize = CompressTFD(&PixelData[8], BufferSize, &TempBuffer[sizeof(TYPE_GrData)], 0x0001, 0xffff, NULL);
                    TAP_Put16bit(&TempBuffer[sizeof(TYPE_GrData) + 0x0e], 0xffff);

                    grData = (TYPE_GrData*)TempBuffer;
                    grData->version        = 1;
                    grData->reserved       = 0;
                    grData->dataFormat     = OSD_1555;
                    grData->compessMethod  = COMPRESS_Tfp;
                    grData->data           = NULL;
                    grData->dataSize       = BufferSize;
                    grData->width          = TAP_Get32bit(&PixelData[0]);
                    grData->height         = TAP_Get32bit(&PixelData[4]);

                    LogoManager_LogoData[LogoIndex].CachePosition = TAP_Hdd_Ftell(f);
                    LogoManager_LogoData[LogoIndex].grDataSize    = sizeof(TYPE_GrData) + CompressedSize;
                    TAP_Hdd_Fwrite(grData, LogoManager_LogoData[LogoIndex].grDataSize, 1, f);
                    LogoIndex++;
                  }
                  if(PixelData) TAP_MemFree(PixelData);
                  if(TempBuffer) TAP_MemFree(TempBuffer);
                  TAP_Hdd_Fclose(fLogo);
                }
                else
                {
                  if(LogoManager_CB) LogoManager_CB(-1, 2);
                }
                LogosConverted++;
              }
              TAP_Hdd_FindNext(&FolderEntry);
            }
          }
        }
      }

      //Step 5: if the LIL exists, read and update the ChannelID of all Logos

      //Step 6: rewrite the cache structure to update all pointers
      TAP_Hdd_Fseek(f, sizeof(ID) + sizeof(dword) + sizeof(dword), SEEK_SET);
      TAP_Hdd_Fwrite(LogoManager_LogoData, sizeof(tLogoData), LogoManager_NrLogos, f);
      TAP_Hdd_Fclose(f);
    }
  }
  HDD_TAP_PopDir();
  if(LogoManager_CB) LogoManager_CB(4, 0);

  TRACEEXIT();
}