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windows-xp/Source/XPSP1/NT/drivers/wdm/dvd/mini/tecra/adv.cpp

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//***************************************************************************
//
// FileName:
// $Workfile: adv.cpp $
// ADV7170 Interface
//
// Author:
// TOSHIBA [PCS](PSY) Seiichi Nakamura
// Copyright (c) 1997 TOSHIBA CORPORATION
//
// Description:
//
//***************************************************************************
// $Header: /DVD Drivers/Sources/ZiVAHAL/adv.cpp 22 98/04/20 7:19p Hero $
// $Modtime: 98/04/20 6:22p $
// $Nokeywords:$
//
// Macrovision 7.01 10/21
//
//***************************************************************************
// Date | Author | Description
// -----------+--------------+--------------------------------------------
// 1997.11.11 | Hideki Yagi | Modify ADV7175A to ADV7170 for San-Jose
// | | Adding SetCgmsType method.
// 12.04 | Hideki Yagi | Adding WSS support.
//
//---------------------------------------------------------------------------
// includes
//---------------------------------------------------------------------------
#include "includes.h"
#include "ioif.h"
#include "timeout.h"
#include "adv.h"
#include "zivachip.h"
#include "mixhal.h"
// by oka
#include "userdata.h"
#include "zivabrd.h"
#define IIC_TIMEOUT (5000)
#define IIC_SLEEPTIME (1)
// ADV7175A/ADV7170 Slave Address
#define SLAVE_ADDR (0x0d4L)
#define COMPOSITE_OFF (0x40)
#define SVIDEO_OFF (0x38)
// by oka
#define CLOSED_CAPTION_ON (0x06)
//---------------------------------------------------------------------------
// CIIC constructor
//---------------------------------------------------------------------------
CIIC::CIIC(void):SubAddr(0),m_pioif(NULL)
{
};
//---------------------------------------------------------------------------
// CIIC::Init
//---------------------------------------------------------------------------
void CIIC::Init(IKernelService *pKernelObj, CIOIF *pioif, BYTE addr )
{
m_pioif = pioif;
SubAddr = addr;
m_pKernelObj = pKernelObj;
};
//---------------------------------------------------------------------------
// CIIC::IICBusyPoll
//---------------------------------------------------------------------------
BOOL CIIC::IICBusyPoll( void )
{
BYTE Data;
CTimeOut TimeOut( IIC_TIMEOUT, IIC_SLEEPTIME , m_pKernelObj );
// following algorithm is very BAD.
while( TRUE )
{
Data = m_pioif->luke2.I2C_CONT.Get(3); // Get I2C_Cont 31-24 bit
if( (Data & 0x80 ) == 0 ) // check busy bit.
return TRUE;
TimeOut.Sleep();
// check Time out....... 1 sec
if( TimeOut.CheckTimeOut() == TRUE )
{
DBG_BREAK();
return FALSE;
};
};
// return FALSE;
};
//---------------------------------------------------------------------------
// CIIC::set
//---------------------------------------------------------------------------
DWORD CIIC::Set( BYTE Data )
{
ASSERT( m_pioif != NULL );
// DBG_PRINTF( ("CADV7170::CIIC::Set SubAddr = 0x%x Data = 0x%x\n", SubAddr, Data) );
// by oka
// if( IICBusyPoll() == FALSE ) return FALSE;
BYTE status = 0x80;
for( DWORD count = 0;(count < 1000) && (status & 0x80) != 0;count++)
{
status = m_pioif->luke2.I2C_CONT.Get(3); // Get I2C_Cont 31-24 bit
}
if (count == 1000){
return FALSE;
}
// end
m_pioif->luke2.I2C_CONT = (DWORD)( ( SLAVE_ADDR << 16 ) | (SubAddr << 8) | Data );
// by oka
// if( IICBusyPoll() == FALSE ) return FALSE;
for( count = 0;(count < 1000) && (status & 0x80) != 0;count++)
{
status = m_pioif->luke2.I2C_CONT.Get(3); // Get I2C_Cont 31-24 bit
}
if (count == 1000){
return FALSE;
}
// end
// if( ( m_pioif->luke2.I2C_CONT.Get(3) & 0x01 ) == 0 ) // check ACK bit
// return FALSE;
return TRUE;
};
//---------------------------------------------------------------------------
// CIIC::Get
//---------------------------------------------------------------------------
DWORD CIIC::Get( BYTE *Data )
{
ASSERT( m_pioif != NULL );
DBG_PRINTF( ("CADV7170::CIIC::Get SubAddr = 0x%x ", SubAddr) );
if( IICBusyPoll() == FALSE ) return FALSE;
m_pioif->luke2.I2C_CONT = ((DWORD)SLAVE_ADDR << 16 ) | 0x06000000L | ((DWORD)SubAddr << 8);
if( IICBusyPoll() == FALSE ) return FALSE;
m_pioif->luke2.I2C_CONT = ((DWORD)(SLAVE_ADDR | 1) << 16 ) | 0x08000000L | ((DWORD)SubAddr << 8);
if( IICBusyPoll() == FALSE ) return FALSE;
*Data = m_pioif->luke2.I2C_CONT.Get(0);
// if( ( m_pioif->luke2.I2C_CONT.Get(3) & 0x01 ) == 0 ) // check ACK bit
// return FALSE;
return TRUE;
};
//***************************************************************************
// CADV7175A control interfaces
//***************************************************************************
//---------------------------------------------------------------------------
// CADV7175A constructor
//---------------------------------------------------------------------------
CADV7175A::CADV7175A(void)
{
};
//---------------------------------------------------------------------------
// CADV7175A::Init
//---------------------------------------------------------------------------
void CADV7175A::Init(IKernelService *pKernelObj, CIOIF *pioif )
{
ModeRegister0.Init( pKernelObj, pioif, 0x00 );
ModeRegister1.Init( pKernelObj, pioif, 0x01 );
SubCarrierFreqRegister0.Init( pKernelObj, pioif, 0x02 );
SubCarrierFreqRegister1.Init( pKernelObj, pioif, 0x03 );
SubCarrierFreqRegister2.Init( pKernelObj, pioif, 0x04 );
SubCarrierFreqRegister3.Init( pKernelObj, pioif, 0x05 );
SubCarrierPhaseRegister.Init( pKernelObj, pioif, 0x06 );
TimingRegister.Init( pKernelObj, pioif, 0x07 );
ClosedCapExData0.Init( pKernelObj, pioif, 0x08 );
ClosedCapExData1.Init( pKernelObj, pioif, 0x09 );
ClosedCapData0.Init( pKernelObj, pioif, 0x0a );
ClosedCapData1.Init( pKernelObj, pioif, 0x0b );
TimingRegister1.Init( pKernelObj, pioif, 0x0c );
ModeRegister2.Init( pKernelObj, pioif, 0x0d );
NTSCTTXRegister0.Init( pKernelObj, pioif, 0x0e );
NTSCTTXRegister1.Init( pKernelObj, pioif, 0x0f );
NTSCTTXRegister2.Init( pKernelObj, pioif, 0x10 );
NTSCTTXRegister3.Init( pKernelObj, pioif, 0x11 );
ModeRegister3.Init( pKernelObj, pioif, 0x12 );
for( int i = 0 ; i < 17; i ++ )
MacrovisionRegister[i].Init( pKernelObj, pioif, (BYTE)(0x13+i) );
TTXRQControlRegister0.Init( pKernelObj, pioif, 0x24 );
TTXRQControlRegister.Init( pKernelObj, pioif, 0x37 );
bCompPower = FALSE; // Composit Power off
bSVideoPower = FALSE; // s-video Power off
// by oka
bClosedCaption = FALSE; // Closed Caption off
m_apstype = ApsType_Off;
m_OutputType = OUTPUT_NTSC;
};
//---------------------------------------------------------------------------
// CADV7175A::SetNTSC
//---------------------------------------------------------------------------
BOOL CADV7175A::SetNTSC( void )
{
BYTE Data;
ModeRegister0 = 0x14;
Data = 0x20;
// by oka
if( bClosedCaption == TRUE ) Data |= CLOSED_CAPTION_ON;
if( bCompPower == FALSE ) Data |= COMPOSITE_OFF;
if( bSVideoPower == FALSE ) Data |= SVIDEO_OFF;
ModeRegister1 = Data;
SubCarrierFreqRegister0 = 0x16;
SubCarrierFreqRegister1 = 0x7c;
SubCarrierFreqRegister2 = 0xf0;
SubCarrierFreqRegister3 = 0x21;
SubCarrierPhaseRegister = 0x00;
// TimingRegister = 0x0d;
TimingRegister = 0x08;
ClosedCapExData0 = 0x00;
ClosedCapExData1 = 0x00;
ClosedCapData0 = 0x00;
ClosedCapData1 = 0x00;
// TimingRegister1 = 0x72;
TimingRegister1 = 0x00;
if( bCompPower == FALSE && bSVideoPower == FALSE )
ModeRegister2 = 0xc8;
else
ModeRegister2 = 0x48;
NTSCTTXRegister0 = 0x00;
NTSCTTXRegister1 = 0x00;
NTSCTTXRegister2 = 0x00;
NTSCTTXRegister3 = 0x00;
ModeRegister3 = 0x02;
TTXRQControlRegister = 0x00;
if( m_OutputType != OUTPUT_NTSC )
SetMacroVision( m_apstype );
m_OutputType = OUTPUT_NTSC;
return TRUE;
};
//---------------------------------------------------------------------------
// CADV7175A::SetPAL
//---------------------------------------------------------------------------
BOOL CADV7175A::SetPAL( DWORD Type )
{
BYTE Data;
switch( Type )
{
case 0: // PAL B,D,G,H,I
ModeRegister0 = 0x11;
SubCarrierFreqRegister0 = 0xcb;
SubCarrierFreqRegister1 = 0x8a;
SubCarrierFreqRegister2 = 0x09;
SubCarrierFreqRegister3 = 0x2a;
SubCarrierPhaseRegister = 0x00;
break;
case 1: // PAL M
ModeRegister0 = 0x12;
SubCarrierFreqRegister0 = 0xa3;
SubCarrierFreqRegister1 = 0xef;
SubCarrierFreqRegister2 = 0xe6;
SubCarrierFreqRegister3 = 0x21;
SubCarrierPhaseRegister = 0x00;
break;
default:
DBG_BREAK();
return FALSE;
};
Data = 0x20;
// by oka
if( bClosedCaption == TRUE ) Data |= CLOSED_CAPTION_ON;
if( bCompPower == FALSE ) Data |= COMPOSITE_OFF;
if( bSVideoPower == FALSE ) Data |= SVIDEO_OFF;
ModeRegister1 = Data;
// TimingRegister = 0x0d;
TimingRegister = 0x08;
ClosedCapExData0 = 0x00;
ClosedCapExData1 = 0x00;
ClosedCapData0 = 0x00;
ClosedCapData1 = 0x00;
// TimingRegister1 = 0x72;
TimingRegister1 = 0x00;
if( bCompPower == FALSE && bSVideoPower == FALSE )
ModeRegister2 = 0xc8;
else
ModeRegister2 = 0x48;
NTSCTTXRegister0 = 0x00;
NTSCTTXRegister1 = 0x00;
NTSCTTXRegister2 = 0x00;
NTSCTTXRegister3 = 0x00;
ModeRegister3 = 0x00;
TTXRQControlRegister = 0x00;
if( m_OutputType != OUTPUT_PAL )
SetMacroVision( m_apstype );
m_OutputType = OUTPUT_PAL;
return TRUE;
};
//---------------------------------------------------------------------------
// CADV7175A::SetMacroVision
//---------------------------------------------------------------------------
BOOL CADV7175A::SetMacroVision( APSTYPE Type )
{
int i;
switch( m_OutputType )
{
case OUTPUT_NTSC:
switch( Type )
{
case ApsType_Off:
MacrovisionRegister[0] = 0x40; // 0xc0;
for( i = 1 ; i < 17; i ++ )
MacrovisionRegister[i] = 0x00;
break;
case ApsType_1:
MacrovisionRegister[ 0] = 0x76; // 0xf6
MacrovisionRegister[ 1] = 0x07;
MacrovisionRegister[ 2] = 0x95;
MacrovisionRegister[ 3] = 0x50;
MacrovisionRegister[ 4] = 0xce;
MacrovisionRegister[ 5] = 0xb6;
MacrovisionRegister[ 6] = 0x91;
MacrovisionRegister[ 7] = 0xf8;
MacrovisionRegister[ 8] = 0x1f;
MacrovisionRegister[ 9] = 0x00; // 0x0c;
MacrovisionRegister[10] = 0xcc; // 0xc0;
MacrovisionRegister[11] = 0x03;
MacrovisionRegister[12] = 0x00;
MacrovisionRegister[13] = 0x58;
MacrovisionRegister[14] = 0x85;
MacrovisionRegister[15] = 0xca;
MacrovisionRegister[16] = 0xff;
break;
case ApsType_2:
MacrovisionRegister[ 0] = 0x7e;
MacrovisionRegister[ 1] = 0x07;
MacrovisionRegister[ 2] = 0x95;
MacrovisionRegister[ 3] = 0x50;
MacrovisionRegister[ 4] = 0xce;
MacrovisionRegister[ 5] = 0xb6;
MacrovisionRegister[ 6] = 0x91;
MacrovisionRegister[ 7] = 0xf8;
MacrovisionRegister[ 8] = 0x1f;
MacrovisionRegister[ 9] = 0x00; // 0x0c;
MacrovisionRegister[10] = 0xcc; // 0xc0;
MacrovisionRegister[11] = 0x03;
MacrovisionRegister[12] = 0x00;
MacrovisionRegister[13] = 0x58;
MacrovisionRegister[14] = 0x85;
MacrovisionRegister[15] = 0xca;
MacrovisionRegister[16] = 0xff;
break;
case ApsType_3:
MacrovisionRegister[ 0] = 0xfe;
MacrovisionRegister[ 1] = 0x45;
MacrovisionRegister[ 2] = 0x85;
MacrovisionRegister[ 3] = 0x54;
MacrovisionRegister[ 4] = 0xeb;
MacrovisionRegister[ 5] = 0xb6;
MacrovisionRegister[ 6] = 0x91;
MacrovisionRegister[ 7] = 0xf8;
MacrovisionRegister[ 8] = 0x1f;
MacrovisionRegister[ 9] = 0x00; // 0x0c;
MacrovisionRegister[10] = 0xcc; // 0xc0;
MacrovisionRegister[11] = 0x03;
MacrovisionRegister[12] = 0x00;
MacrovisionRegister[13] = 0x58;
MacrovisionRegister[14] = 0x85;
MacrovisionRegister[15] = 0xca;
MacrovisionRegister[16] = 0xff;
break;
default:
return FALSE;
};
break;
case OUTPUT_PAL:
switch( Type )
{
case ApsType_Off:
MacrovisionRegister[ 0] = 0x80;
MacrovisionRegister[ 1] = 0x16;
MacrovisionRegister[ 2] = 0xaa;
MacrovisionRegister[ 3] = 0x61;
MacrovisionRegister[ 4] = 0x05;
MacrovisionRegister[ 5] = 0xd7;
MacrovisionRegister[ 6] = 0x53;
MacrovisionRegister[ 7] = 0xfe;
MacrovisionRegister[ 8] = 0x03;
MacrovisionRegister[ 9] = 0xaa;
MacrovisionRegister[10] = 0x80;
MacrovisionRegister[11] = 0xbf;
MacrovisionRegister[12] = 0x1f;
MacrovisionRegister[13] = 0x18;
MacrovisionRegister[14] = 0x04;
MacrovisionRegister[15] = 0x7a;
MacrovisionRegister[16] = 0x55;
break;
case ApsType_1:
case ApsType_2:
case ApsType_3:
MacrovisionRegister[ 0] = 0xb6;
MacrovisionRegister[ 1] = 0x16; // 0x26; // 0x16;
MacrovisionRegister[ 2] = 0xaa;
MacrovisionRegister[ 3] = 0x61; // 0x62; // 0x61;
MacrovisionRegister[ 4] = 0x05;
MacrovisionRegister[ 5] = 0xd7;
MacrovisionRegister[ 6] = 0x53;
MacrovisionRegister[ 7] = 0xfe; // 0xfc;
MacrovisionRegister[ 8] = 0x03;
MacrovisionRegister[ 9] = 0xaa;
MacrovisionRegister[10] = 0x80;
MacrovisionRegister[11] = 0xbf;
MacrovisionRegister[12] = 0x1f;
MacrovisionRegister[13] = 0x18;
MacrovisionRegister[14] = 0x04;
MacrovisionRegister[15] = 0x7a;
MacrovisionRegister[16] = 0x55;
break;
default:
return FALSE;
};
break;
default:
return FALSE;
};
m_apstype = Type;
return TRUE;
};
//---------------------------------------------------------------------------
// CADV7175A::SetCompPowerOn
//---------------------------------------------------------------------------
BOOL CADV7175A::SetCompPowerOn( BOOL Type )
{
BYTE Data;
bCompPower = Type;
if( bCompPower == FALSE && bSVideoPower == FALSE )
{
Data = 0x20;
// by oka
if( bClosedCaption == TRUE ) Data |= CLOSED_CAPTION_ON;
if( bCompPower == FALSE ) Data |= COMPOSITE_OFF;
if( bSVideoPower == FALSE ) Data |= SVIDEO_OFF;
ModeRegister1 = Data;
ModeRegister2 = 0xc8;
}
else
{
ModeRegister2 = 0x48;
Data = 0x20;
// by oka
if( bClosedCaption == TRUE ) Data |= CLOSED_CAPTION_ON;
if( bCompPower == FALSE ) Data |= COMPOSITE_OFF;
if( bSVideoPower == FALSE ) Data |= SVIDEO_OFF;
ModeRegister1 = Data;
};
return TRUE;
};
//---------------------------------------------------------------------------
// CADV7175A::SetSvideoPowerOn
//---------------------------------------------------------------------------
BOOL CADV7175A::SetSVideoPowerOn( BOOL Type )
{
BYTE Data;
bSVideoPower = Type;
if( bCompPower == FALSE && bSVideoPower == FALSE )
{
Data = 0x20;
// by oka
if( bClosedCaption == TRUE ) Data |= CLOSED_CAPTION_ON;
if( bCompPower == FALSE ) Data |= COMPOSITE_OFF;
if( bSVideoPower == FALSE ) Data |= SVIDEO_OFF;
ModeRegister1 = Data;
ModeRegister2 = 0xc8;
}
else
{
ModeRegister2 = 0x48;
Data = 0x20;
// by oka
if( bClosedCaption == TRUE ) Data |= CLOSED_CAPTION_ON;
if( bCompPower == FALSE ) Data |= COMPOSITE_OFF;
if( bSVideoPower == FALSE ) Data |= SVIDEO_OFF;
ModeRegister1 = Data;
};
return TRUE;
};
//---------------------------------------------------------------------------
// CADV7175A::SetCgmsType
//---------------------------------------------------------------------------
BOOL CADV7175A::SetCgmsType( CGMSTYPE Type, CVideoPropSet VProp )
{
return TRUE;
};
// by oka
//---------------------------------------------------------------------------
// CADV7175A::SetClosedCaptionOn
//---------------------------------------------------------------------------
BOOL CADV7175A::SetClosedCaptionOn( BOOL fswitch )
{
if (fswitch)
{
bClosedCaption = TRUE;
} else {
bClosedCaption = FALSE;
}
BYTE Data;
Data = 0x20;
if( bClosedCaption == TRUE ) Data |= CLOSED_CAPTION_ON;
if( bCompPower == FALSE ) Data |= COMPOSITE_OFF;
if( bSVideoPower == FALSE ) Data |= SVIDEO_OFF;
ModeRegister1 = Data;
return TRUE;
}
//---------------------------------------------------------------------------
// CADV7175A::SetClosedCaption
//---------------------------------------------------------------------------
BOOL CADV7175A::SetClosedCaptionData( DWORD Data )
{
ClosedCapData0 = (BYTE)((Data & 0x0000FF00) >> 8);
ClosedCapData1 = (BYTE)(Data & 0x000000FF);
return TRUE;
}
//***************************************************************************
// CADV7170 control interfaces
//***************************************************************************
//---------------------------------------------------------------------------
// CADV7170 constructor
//---------------------------------------------------------------------------
CADV7170::CADV7170(void)
{
};
//---------------------------------------------------------------------------
// CADV7170::Init
//---------------------------------------------------------------------------
void CADV7170::Init(IKernelService *pKernelObj, CIOIF *pioif )
{
ModeRegister0.Init( pKernelObj, pioif, 0x00 );
ModeRegister1.Init( pKernelObj, pioif, 0x01 );
ModeRegister2.Init( pKernelObj, pioif, 0x02 );
ModeRegister3.Init( pKernelObj, pioif, 0x03 );
ModeRegister4.Init( pKernelObj, pioif, 0x04 );
TimingRegister0.Init( pKernelObj, pioif, 0x07 );
TimingRegister1.Init( pKernelObj, pioif, 0x08 );
SubCarrierFreqRegister0.Init( pKernelObj, pioif, 0x09 );
SubCarrierFreqRegister1.Init( pKernelObj, pioif, 0x0A );
SubCarrierFreqRegister2.Init( pKernelObj, pioif, 0x0B );
SubCarrierFreqRegister3.Init( pKernelObj, pioif, 0x0C );
SubCarrierPhaseRegister.Init( pKernelObj, pioif, 0x0D );
ClosedCapExData0.Init( pKernelObj, pioif, 0x0E );
ClosedCapExData1.Init( pKernelObj, pioif, 0x0F );
ClosedCapData0.Init( pKernelObj, pioif, 0x10 );
ClosedCapData1.Init( pKernelObj, pioif, 0x11 );
NTSCTTXRegister0.Init( pKernelObj, pioif, 0x12 );
NTSCTTXRegister1.Init( pKernelObj, pioif, 0x13 );
NTSCTTXRegister2.Init( pKernelObj, pioif, 0x14 );
NTSCTTXRegister3.Init( pKernelObj, pioif, 0x15 );
CgmsWssRegister0.Init( pKernelObj, pioif, 0x16 );
CgmsWssRegister1.Init( pKernelObj, pioif, 0x17 );
CgmsWssRegister2.Init( pKernelObj, pioif, 0x18 );
TTXRQPositionRegister.Init( pKernelObj, pioif, 0x19 );
for( int i = 0 ; i < 18; i ++ )
MacrovisionRegister[i].Init( pKernelObj, pioif, (BYTE)(0x1E+i) );
bCompPower = FALSE; // Composit Power off
bSVideoPower = FALSE; // s-video Power off
// by oka
bClosedCaption = FALSE; // Closed Caption off
m_apstype = ApsType_Off;
m_OutputType = OUTPUT_NTSC;
m_cgmstype = CgmsType_Off; // CGMS type setting
};
//---------------------------------------------------------------------------
// CADV7170::SetNTSC
//---------------------------------------------------------------------------
BOOL CADV7170::SetNTSC( void )
{
BYTE Data;
ModeRegister0 = 0x70; //0x10;
Data = 0x00;
// by oka
if( bClosedCaption == TRUE ) Data |= CLOSED_CAPTION_ON;
if( bCompPower == FALSE ) Data |= COMPOSITE_OFF;
if( bSVideoPower == FALSE ) Data |= SVIDEO_OFF;
ModeRegister1 = Data;
if( bCompPower == FALSE && bSVideoPower == FALSE )
ModeRegister2 = 0x48;
else
ModeRegister2 = 0x08;
ModeRegister3 = 0x04;
ModeRegister4 = 0x06; //0x12;
TimingRegister0 = 0x08;
TimingRegister1 = 0x00;
SubCarrierFreqRegister0 = 0x16;
SubCarrierFreqRegister1 = 0x7c;
SubCarrierFreqRegister2 = 0xf0;
SubCarrierFreqRegister3 = 0x21;
SubCarrierPhaseRegister = 0x00;
ClosedCapExData0 = 0x00;
ClosedCapExData1 = 0x00;
ClosedCapData0 = 0x00;
ClosedCapData1 = 0x00;
NTSCTTXRegister0 = 0x00;
NTSCTTXRegister1 = 0x00;
NTSCTTXRegister2 = 0x00;
NTSCTTXRegister3 = 0x00;
TTXRQPositionRegister = 0x00;
if( m_OutputType != OUTPUT_NTSC )
SetMacroVision( m_apstype );
m_OutputType = OUTPUT_NTSC;
return TRUE;
};
//---------------------------------------------------------------------------
// CADV7170::SetPAL
//---------------------------------------------------------------------------
BOOL CADV7170::SetPAL( DWORD Type )
{
BYTE Data;
switch( Type )
{
case 0: // PAL B,D,G,H,I
ModeRegister0 = 0x71; //0x11;
SubCarrierFreqRegister0 = 0xcb;
SubCarrierFreqRegister1 = 0x8a;
SubCarrierFreqRegister2 = 0x09;
SubCarrierFreqRegister3 = 0x2a;
SubCarrierPhaseRegister = 0x00;
break;
case 1: // PAL M
ModeRegister0 = 0x72; //0x12;
SubCarrierFreqRegister0 = 0xa3;
SubCarrierFreqRegister1 = 0xef;
SubCarrierFreqRegister2 = 0xe6;
SubCarrierFreqRegister3 = 0x21;
SubCarrierPhaseRegister = 0x00;
break;
default:
DBG_BREAK();
return FALSE;
};
Data = 0x00;
// by oka
if( bClosedCaption == TRUE ) Data |= CLOSED_CAPTION_ON;
if( bCompPower == FALSE ) Data |= COMPOSITE_OFF;
if( bSVideoPower == FALSE ) Data |= SVIDEO_OFF;
ModeRegister1 = Data;
if( bCompPower == FALSE && bSVideoPower == FALSE )
ModeRegister2 = 0x48;
else
ModeRegister2 = 0x08;
ModeRegister3 = 0x00; //0x04;
ModeRegister4 = 0x06; //0x12;
TimingRegister0 = 0x08;
TimingRegister1 = 0x00;
ClosedCapExData0 = 0x00;
ClosedCapExData1 = 0x00;
ClosedCapData0 = 0x00;
ClosedCapData1 = 0x00;
NTSCTTXRegister0 = 0x00;
NTSCTTXRegister1 = 0x00;
NTSCTTXRegister2 = 0x00;
NTSCTTXRegister3 = 0x00;
TTXRQPositionRegister = 0x00;
if( m_OutputType != OUTPUT_PAL )
SetMacroVision( m_apstype );
m_OutputType = OUTPUT_PAL;
return TRUE;
};
//---------------------------------------------------------------------------
// CADV7170::SetMacroVision
//---------------------------------------------------------------------------
BOOL CADV7170::SetMacroVision( APSTYPE Type )
{
int i;
switch( m_OutputType )
{
case OUTPUT_NTSC:
switch( Type )
{
case ApsType_Off:
MacrovisionRegister[0] = 0x40; // 0xc0;
for( i = 1 ; i < 18; i ++ )
MacrovisionRegister[i] = 0x00;
break;
case ApsType_1:
MacrovisionRegister[ 0] = 0x76; // 0xf6
MacrovisionRegister[ 1] = 0x07;
MacrovisionRegister[ 2] = 0x95;
MacrovisionRegister[ 3] = 0x50;
MacrovisionRegister[ 4] = 0xce;
MacrovisionRegister[ 5] = 0xb6;
MacrovisionRegister[ 6] = 0x91;
MacrovisionRegister[ 7] = 0xf8;
MacrovisionRegister[ 8] = 0x1f;
MacrovisionRegister[ 9] = 0x00; // 0x0c;
MacrovisionRegister[10] = 0xcc; // 0xc0;
MacrovisionRegister[11] = 0x03;
MacrovisionRegister[12] = 0x00;
MacrovisionRegister[13] = 0x58;
MacrovisionRegister[14] = 0x85;
MacrovisionRegister[15] = 0xca;
MacrovisionRegister[16] = 0xff;
MacrovisionRegister[17] = 0x00;
break;
case ApsType_2:
MacrovisionRegister[ 0] = 0x7e;
MacrovisionRegister[ 1] = 0x07;
MacrovisionRegister[ 2] = 0x95;
MacrovisionRegister[ 3] = 0x50;
MacrovisionRegister[ 4] = 0xce;
MacrovisionRegister[ 5] = 0xb6;
MacrovisionRegister[ 6] = 0x91;
MacrovisionRegister[ 7] = 0xf8;
MacrovisionRegister[ 8] = 0x1f;
MacrovisionRegister[ 9] = 0x00; // 0x0c;
MacrovisionRegister[10] = 0xcc; // 0xc0;
MacrovisionRegister[11] = 0x03;
MacrovisionRegister[12] = 0x00;
MacrovisionRegister[13] = 0x58;
MacrovisionRegister[14] = 0x85;
MacrovisionRegister[15] = 0xca;
MacrovisionRegister[16] = 0xff;
MacrovisionRegister[17] = 0x00;
break;
case ApsType_3:
MacrovisionRegister[ 0] = 0xfe;
MacrovisionRegister[ 1] = 0x45;
MacrovisionRegister[ 2] = 0x85;
MacrovisionRegister[ 3] = 0x54;
MacrovisionRegister[ 4] = 0xeb;
MacrovisionRegister[ 5] = 0xb6;
MacrovisionRegister[ 6] = 0x91;
MacrovisionRegister[ 7] = 0xf8;
MacrovisionRegister[ 8] = 0x1f;
MacrovisionRegister[ 9] = 0x00; // 0x0c;
MacrovisionRegister[10] = 0xcc; // 0xc0;
MacrovisionRegister[11] = 0x03;
MacrovisionRegister[12] = 0x00;
MacrovisionRegister[13] = 0x58;
MacrovisionRegister[14] = 0x85;
MacrovisionRegister[15] = 0xca;
MacrovisionRegister[16] = 0xff;
MacrovisionRegister[17] = 0x00;
break;
default:
return FALSE;
};
break;
case OUTPUT_PAL:
switch( Type )
{
case ApsType_Off:
MacrovisionRegister[ 0] = 0x80;
MacrovisionRegister[ 1] = 0x16;
MacrovisionRegister[ 2] = 0xaa;
MacrovisionRegister[ 3] = 0x61;
MacrovisionRegister[ 4] = 0x05;
MacrovisionRegister[ 5] = 0xd7;
MacrovisionRegister[ 6] = 0x53;
MacrovisionRegister[ 7] = 0xfe;
MacrovisionRegister[ 8] = 0x03;
MacrovisionRegister[ 9] = 0xaa;
MacrovisionRegister[10] = 0x80;
MacrovisionRegister[11] = 0xbf;
MacrovisionRegister[12] = 0x1f;
MacrovisionRegister[13] = 0x18;
MacrovisionRegister[14] = 0x04;
MacrovisionRegister[15] = 0x7a;
MacrovisionRegister[16] = 0x55;
MacrovisionRegister[17] = 0x00;
break;
case ApsType_1:
case ApsType_2:
case ApsType_3:
MacrovisionRegister[ 0] = 0xb6;
MacrovisionRegister[ 1] = 0x16; // 0x26; // 0x16;
MacrovisionRegister[ 2] = 0xaa;
MacrovisionRegister[ 3] = 0x61; // 0x62; // 0x61;
MacrovisionRegister[ 4] = 0x05;
MacrovisionRegister[ 5] = 0xd7;
MacrovisionRegister[ 6] = 0x53;
MacrovisionRegister[ 7] = 0xfe; // 0xfc;
MacrovisionRegister[ 8] = 0x03;
MacrovisionRegister[ 9] = 0xaa;
MacrovisionRegister[10] = 0x80;
MacrovisionRegister[11] = 0xbf;
MacrovisionRegister[12] = 0x1f;
MacrovisionRegister[13] = 0x18;
MacrovisionRegister[14] = 0x04;
MacrovisionRegister[15] = 0x7a;
MacrovisionRegister[16] = 0x55;
MacrovisionRegister[17] = 0x00;
break;
default:
return FALSE;
};
break;
default:
return FALSE;
};
m_apstype = Type;
return TRUE;
};
//---------------------------------------------------------------------------
// CADV7170::SetCompPowerOn
//---------------------------------------------------------------------------
BOOL CADV7170::SetCompPowerOn( BOOL Type )
{
BYTE Data;
bCompPower = Type;
if( bCompPower == FALSE && bSVideoPower == FALSE )
{
Data = 0x00;
// by oka
if( bClosedCaption == TRUE ) Data |= CLOSED_CAPTION_ON;
if( bCompPower == FALSE ) Data |= COMPOSITE_OFF;
if( bSVideoPower == FALSE ) Data |= SVIDEO_OFF;
ModeRegister1 = Data;
ModeRegister2 = 0x48;
}
else
{
ModeRegister2 = 0x08;
Data = 0x00;
// by oka
if( bClosedCaption == TRUE ) Data |= CLOSED_CAPTION_ON;
if( bCompPower == FALSE ) Data |= COMPOSITE_OFF;
if( bSVideoPower == FALSE ) Data |= SVIDEO_OFF;
ModeRegister1 = Data;
};
Data = ModeRegister4;
if( (bCompPower==TRUE)||(bSVideoPower==TRUE) ){
Data &= 0xBF;
ModeRegister4 = Data;
}else{
Data |= 0x40;
ModeRegister4 = Data;
}
return TRUE;
};
//---------------------------------------------------------------------------
// CADV7170::SetSvideoPowerOn
//---------------------------------------------------------------------------
BOOL CADV7170::SetSVideoPowerOn( BOOL Type )
{
BYTE Data;
bSVideoPower = Type;
if( bCompPower == FALSE && bSVideoPower == FALSE )
{
Data = 0x00;
// by oka
if( bClosedCaption == TRUE ) Data |= CLOSED_CAPTION_ON;
if( bCompPower == FALSE ) Data |= COMPOSITE_OFF;
if( bSVideoPower == FALSE ) Data |= SVIDEO_OFF;
ModeRegister1 = Data;
ModeRegister2 = 0x48;
}
else
{
ModeRegister2 = 0x08;
Data = 0x00;
// by oka
if( bClosedCaption == TRUE ) Data |= CLOSED_CAPTION_ON;
if( bCompPower == FALSE ) Data |= COMPOSITE_OFF;
if( bSVideoPower == FALSE ) Data |= SVIDEO_OFF;
ModeRegister1 = Data;
};
Data = ModeRegister4;
if( (bCompPower==TRUE)||(bSVideoPower==TRUE) ){
Data &= 0xBF;
ModeRegister4 = Data;
}else{
Data |= 0x40;
ModeRegister4 = Data;
}
return TRUE;
};
//---------------------------------------------------------------------------
// CADV7170::SetCgmsType
//---------------------------------------------------------------------------
BOOL CADV7170::SetCgmsType( CGMSTYPE Type, CVideoPropSet VProp )
{
BYTE word0, word1, word2, word3;
word0 = word1 = word2 = word3 = 0x00;
switch( m_OutputType )
{
case OUTPUT_NTSC:
// WORD-0
switch( VProp.m_AspectRatio ){
case Aspect_04_03:
word0 &= 0xFE;
break;
case Aspect_16_09:
word0 |= 0x01;
break;
}
switch( VProp.m_DisplayMode ){
case Display_Original:
case Display_PanScan:
word0 &= 0xFD;
break;
case Display_LetterBox:
word0 |= 0x02;
break;
}
// WORD-1
word1 = 0x00;
// WORD-2
switch( Type ){
case CgmsType_Off:
word2 &= 0xFC;
break;
case CgmsType_1:
word2 &= 0xFC;
word2 |= 0x01;
break;
case CgmsType_On:
word2 |= 0x03;
break;
}
switch( m_apstype ){
case ApsType_Off:
word2 &= 0xF3;
break;
case ApsType_1:
word2 &= 0xF3;
word2 |= 0x08;
break;
case ApsType_2:
word2 &= 0xF3;
word2 |= 0x04;
break;
case ApsType_3:
word2 |= 0x0C;
break;
}
CgmsWssRegister0 = 0x7F; // NTSC(CGMS-A)
CgmsWssRegister1 = (BYTE)( ( word2>>2 )| 0xC0 );
CgmsWssRegister2 = (BYTE)( word0|word1|( word2<<6 ) );
break;
case OUTPUT_PAL:
// Group-1
switch( VProp.m_AspectRatio ){
case Aspect_04_03:
word0 |= 0x08;
break;
case Aspect_16_09:
word0 = 0x07;
break;
}
switch( VProp.m_DisplayMode ){
case Display_Original:
case Display_PanScan:
word0 &= 0xF8;
break;
case Display_LetterBox:
word0 |= 0x03;
break;
}
// Group-2
switch( VProp.m_FilmCamera ){
case Source_Film:
word1 |= 0x01;
break;
case Source_Camera:
word1 &= 0xFE;
break;
}
// Group-4
switch( Type ){
case CgmsType_Off:
word3 = 0x00;
break;
case CgmsType_1:
word3 = 0x02;
break;
case CgmsType_On:
word3 = 0x06;
break;
}
CgmsWssRegister0 = 0x80; // PAL(WSS)
CgmsWssRegister1 = (BYTE)( word2|( word3<<3 ) );
CgmsWssRegister2 = (BYTE)( word0|( word1<<4 ) );
break;
default:
return FALSE;
};
m_cgmstype = Type;
return TRUE;
};
//---------------------------------------------------------------------------
// CADV7170::SetClosedCaptionOn
//---------------------------------------------------------------------------
BOOL CADV7170::SetClosedCaptionOn( BOOL fswitch )
{
if (fswitch)
{
bClosedCaption = TRUE;
} else {
bClosedCaption = FALSE;
}
BYTE Data;
Data = 0x00;
// by oka
if( bClosedCaption == TRUE ) Data |= CLOSED_CAPTION_ON;
if( bCompPower == FALSE ) Data |= COMPOSITE_OFF;
if( bSVideoPower == FALSE ) Data |= SVIDEO_OFF;
ModeRegister1 = Data;
return TRUE;
}
//---------------------------------------------------------------------------
// CADV7170::SetClosedCaptionData
//---------------------------------------------------------------------------
BOOL CADV7170::SetClosedCaptionData( DWORD Data )
{
ClosedCapData0 = (BYTE)((Data & 0x0000FF00) >> 8);
ClosedCapData1 = (BYTE)(Data & 0x000000FF);
return TRUE;
}
//***************************************************************************
// End of
//***************************************************************************