byte ReadIndexedRegister (byte PageNum, byte Offset) 
{
	EXIT_ON_CABLE_DISCONNECTION;
	WriteByteTPI(TPI_INDEXED_PAGE_REG, PageNum);		// Indexed page
	WriteByteTPI(TPI_INDEXED_OFFSET_REG, Offset);		// Indexed register
	return ReadByteTPI(TPI_INDEXED_VALUE_REG);			// Return read value
}
Ejemplo n.º 2
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int MHD_Read_deviceID(void)
{

    byte devID = 0x00;
    word wID = 0x0000;

    devID = ReadIndexedRegister(0x00, 0x03);
    wID = devID;
    wID <<= 8;
    devID = ReadIndexedRegister(0x00, 0x02);
    wID |= devID;

    devID = ReadByteTPI(TPI_DEVICE_ID);

    printk ("SiI %04X\n", (int) wID);

    if (devID == SiI_DEVICE_ID)
    {
        return TRUE;
    }

    printk ("Unsupported TX\n");
    return FALSE;

}
Ejemplo n.º 3
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void MHD_INT_clear(void)
{
    byte Int_state;

    Int_state= ReadByteTPI(TPI_INTERRUPT_STATUS_REG);

    WriteByteTPI (TPI_INTERRUPT_STATUS_REG, Int_state);	  // Clear this interrupt.

}
Ejemplo n.º 4
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void ReadModifyWriteTPI(u8 Offset, u8 Mask, u8 Data) 
{
	u8 Temp;

	Temp = ReadByteTPI(Offset);		// Read the current value of the register.
	Temp &= ~Mask;					// Clear the bits that are set in Mask.
	Temp |= (Data & Mask);			// OR in new value. Apply Mask to Value for safety.
	WriteByteTPI(Offset, Temp);		// Write new value back to register.
}
void ReadModifyWriteTPI(byte Offset, byte Mask, byte Data) 
{

	byte Temp;
	EXIT_ON_CABLE_DISCONNECTION_V;
	Temp = ReadByteTPI(Offset);		// Read the current value of the register.
	Temp &= ~Mask;					// Clear the bits that are set in Mask.
	Temp |= (Data & Mask);			// OR in new value. Apply Mask to Value for safety.
	WriteByteTPI(Offset, Temp);		// Write new value back to register.
}
void ReadModifyWriteTPI(byte Offset, byte Mask, byte Data)
{

    byte Temp;

    Temp = ReadByteTPI(Offset);
    /* Read the current value of the register.*/
    Temp &= ~Mask;
    /*Clear the bits that are set in Mask.*/
    Temp |= (Data & Mask);
    /*OR in new value. Apply Mask to Value for safety.*/
    WriteByteTPI(Offset, Temp);
    /*Write new value back to register.*/
}
Ejemplo n.º 7
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void tpi_clear_pending_event(void)
{
	int retry = 100;

	while (retry--) {
		WriteByteTPI(0x3c, 1);
		WriteByteTPI(0x3d, 1);
		if (ReadByteTPI(0x3d) & 0x01)
			DelayMS(1);
		else
			break;
	}
	if (retry < 19) TPI_DEBUG_PRINT(("%s: retry=%d\n", __func__, 19 - retry));
}
Ejemplo n.º 8
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void MHD_INT_clear(void)
{

    byte Int_state;

#if 0
    Int_state= ReadByteTPI(TPI_INTERRUPT_STATUS_REG);

    WriteByteTPI (TPI_INTERRUPT_STATUS_REG, Int_state);	  // Clear this interrupt.




    WriteByteTPI(TPI_INTERRUPT_ENABLE_REG, 0x00);

    WriteIndexedRegister(INDEXED_PAGE_0, 0x78, 0x01);	// Enable
#endif
    Int_state = ReadIndexedRegister(INDEXED_PAGE_0,0x74);
    WriteIndexedRegister(INDEXED_PAGE_0,0x74,Int_state);
}
static byte ReadIndexedRegister(byte PageNum, byte Offset)
{
    WriteByteTPI(TPI_INDEXED_PAGE_REG, PageNum);	/* Indexed page */
    WriteByteTPI(TPI_INDEXED_OFFSET_REG, Offset);	/* Indexed register */
    return ReadByteTPI(TPI_INDEXED_VALUE_REG);	/* Return read value */
}
Ejemplo n.º 10
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int sil902x_CP_check_status(char InterruptStatusImage)
{
	char reg;
	unsigned int NewLinkProtectionLevel;
#ifdef READKSV
	char RiCnt;
#endif
	int ret = 0; // 1:auto ok,-1:cp fail

//	DPRINT("[SIL902X] CP check status 0x%x\n",InterruptStatusImage);

	// Check if Link Status has changed:
	if (InterruptStatusImage & 0x20){
		DBGMSG("HDCP -> ");

		reg = ReadByte(0x29);
		reg &= 0x30;

#ifdef SIL902X_CP_POLL_LINK_STATUS
		WriteByte(0x3D,0x20);	// clear SECURITY_CHANGE_EVENT bit
#endif
		switch (reg){
			case 0x00: // LINK_STATUS_NORMAL
				DBGMSG("Link = Normal\n");
				break;
			case 0x10: // LINK_STATUS_LINK_LOST
				DBGMSG("Link = Lost\n");
				sil902x_CP_restart();
				ret = -1;
				break;
			case 0x20: // LINK_STATUS_RENEGOTIATION_REQ
				DBGMSG("Link = Renegotiation Required\n");
				sil902x_CP_enable(0);
				sil902x_CP_enable(1);
				ret = -1;
				break;
			case 0x30: // LINK_STATUS_LINK_SUSPENDED
				DBGMSG("Link = Suspended\n");
				sil902x_CP_enable(1);
				break;
		}
	}

	// Check if CP state has changed:
	if (InterruptStatusImage & 0x80){
		reg = ReadByte(0x29);
		NewLinkProtectionLevel = reg & (EXTENDED_LINK_PROTECTION_MASK | LOCAL_LINK_PROTECTION_MASK);
		if (NewLinkProtectionLevel != sil902x_cp_linkProtectionLevel){
			DBGMSG("HDCP -> ");

			sil902x_cp_linkProtectionLevel = NewLinkProtectionLevel;

			switch (sil902x_cp_linkProtectionLevel){
				case (EXTENDED_LINK_PROTECTION_NONE | LOCAL_LINK_PROTECTION_NONE):
					DBGMSG("Protection = None\n");
					sil902x_CP_restart();
					ret = -1;
					break;

				case LOCAL_LINK_PROTECTION_SECURE:
					ReadModifyWrite(0x1A,0x8,0x0);
					DBGMSG("Protection = Local, Video Unmuted\n");
					ret = 1;
					break;

				case (EXTENDED_LINK_PROTECTION_SECURE | LOCAL_LINK_PROTECTION_SECURE):
					DBGMSG("Protection = Extended\n");
#ifdef READKSV
					if (sil902x_CP_IsRepeater()){
						RiCnt = ReadIndexedRegister(INDEXED_PAGE_0, 0x25);
						while (RiCnt > 0x70){  // Frame 112
							RiCnt = ReadIndexedRegister(INDEXED_PAGE_0, 0x25);
						}
						ReadModifyWriteTPI(TPI_SYSTEM_CONTROL_DATA_REG, 0x06, 0x06);
						sil902x_CP_get_KSV();
						RiCnt = ReadByteTPI(TPI_SYSTEM_CONTROL_DATA_REG);
						ReadModifyWriteTPI(TPI_SYSTEM_CONTROL_DATA_REG, 0x08, 0x00);
					}
#endif
					break;
				default:
					DBGMSG("Protection = Extended but not Local?\n");
					sil902x_CP_restart();
					ret = -1;
					break;
			}
		}
#ifdef SIL902X_CP_POLL_CP_STATE
		WriteByte(0x3D,0x80);	// clear HDCP_CHANGE_EVENT bit
#endif
	}
	return ret;
}
Ejemplo n.º 11
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u8 ReadIndexedRegister (u8 PageNum, u8 Offset) 
{
	WriteByteTPI(TPI_INDEXED_PAGE_REG, PageNum);		// Indexed page
	WriteByteTPI(TPI_INDEXED_OFFSET_REG, Offset);		// Indexed register
	return ReadByteTPI(TPI_INDEXED_VALUE_REG);			// Return read value
}