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/*
 * Copyright 1998 by Alan Hourihane, Wigan, England.
 *
 * Permission to use, copy, modify, distribute, and sell this software and its
 * documentation for any purpose is hereby granted without fee, provided that
 * the above copyright notice appear in all copies and that both that
 * copyright notice and this permission notice appear in supporting
 * documentation, and that the name of Alan Hourihane not be used in
 * advertising or publicity pertaining to distribution of the software without
 * specific, written prior permission.  Alan Hourihane makes no representations
 * about the suitability of this software for any purpose.  It is provided
 * "as is" without express or implied warranty.
 *
 * ALAN HOURIHANE DISCLAIMS ALL WARRANTIES WITH REGARD TO THIS SOFTWARE,
 * INCLUDING ALL IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS, IN NO
 * EVENT SHALL ALAN HOURIHANE BE LIABLE FOR ANY SPECIAL, INDIRECT OR
 * CONSEQUENTIAL DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING FROM LOSS OF USE,
 * DATA OR PROFITS, WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE OR OTHER
 * TORTIOUS ACTION, ARISING OUT OF OR IN CONNECTION WITH THE USE OR
 * PERFORMANCE OF THIS SOFTWARE.
 *
 * Authors:  Alan Hourihane, <alanh@fairlite.demon.co.uk>
 *
 * Modified from IBM.c to support TI RAMDAC routines 
 *   by Jens Owen, <jens@precisioninsight.com>.
 */
/* $XFree86: xc/programs/Xserver/hw/xfree86/ramdac/TI.c,v 1.1 1999/06/14 07:32:08 dawes Exp $ */

#include "xf86.h"
#include "xf86_OSproc.h"
#include "xf86_ansic.h"

#include "xf86Cursor.h"

#define INIT_TI_RAMDAC_INFO
#include "TIPriv.h"
#include "xf86RamDacPriv.h"

/* The following values are in kHz */
#define TI_MIN_VCO_FREQ  110000
#define TI_MAX_VCO_FREQ  220000

unsigned long
TIramdacCalculateMNPForClock(
    unsigned long RefClock,	/* In 100Hz units */
    unsigned long ReqClock,	/* In 100Hz units */
    char IsPixClock,	/* boolean, is this the pixel or the sys clock */
    unsigned long MinClock,	/* Min VCO rating */
    unsigned long MaxClock,	/* Max VCO rating */
    unsigned long *rM,	/* M Out */
    unsigned long *rN,	/* N Out */
    unsigned long *rP 	/* Min P In, P Out */
)
{
    unsigned long   n, p;
    unsigned long   best_m = 0, best_n = 0;
    double          VCO, IntRef = (double)RefClock;
    double          m_err, inc_m, calc_m;
    unsigned long   ActualClock;

    /* Make sure that MinClock <= ReqClock <= MaxClock */
    if ( ReqClock < MinClock)
	ReqClock = MinClock;
    if ( ReqClock > MaxClock )
	ReqClock = MaxClock;

    /*
     * ActualClock = VCO / 2 ^ p
     * Choose p so that TI_MIN_VCO_FREQ <= VCO <= TI_MAX_VCO_FREQ
     * Note that since TI_MAX_VCO_FREQ = 2 * TI_MIN_VCO_FREQ
     * we don't have to bother checking for this maximum limit.
     */
    VCO = (double)ReqClock;
    for ( p = *rP; p < 3 && VCO < TI_MIN_VCO_FREQ; ( p )++ )
	 VCO *= 2.0;

    /*
     * We avoid doing multiplications by ( 65 - n ),
     * and add an increment instead - this keeps any error small.
     */
    inc_m = VCO / ( IntRef * 8.0 );

    /* Initial value of calc_m for the loop */
    calc_m = inc_m + inc_m + inc_m;

    /* Initial amount of error for an integer - impossibly large */
    m_err = 2.0;

    /* Search for the closest INTEGER value of ( 65 - m ) */
    for ( n = 3; n <= 25; ( n )++, calc_m += inc_m ) {

	/* Ignore values of ( 65 - m ) which we can't use */
	if ( calc_m < 3.0 || calc_m > 64.0 )
	    continue;

	/*
	 * Pick the closest INTEGER (has smallest fractional part).
	 * The optimizer should clean this up for us.
	 */
	if (( calc_m - ( int ) calc_m ) < m_err ) {
	    m_err = calc_m - ( int ) calc_m;
	    best_m = ( int ) calc_m;
	    best_n = n;
	}
    }

    /* 65 - ( 65 - x ) = x */
    *rM = 65 - best_m;
    *rN = 65 - best_n;
    *rP = p;

    /* Now all the calculations can be completed */
    VCO = 8.0 * IntRef * best_m / best_n;
    ActualClock = VCO / ( 1 << p );

#ifdef DEBUG
    ErrorF( "f_out=%ld f_vco=%.1f n=%d m=%d p=%d\n",
	    ActualClock, VCO, *rN, *rM, *rP);
#endif

    return (ActualClock);
}

void
TIramdacRestore(ScrnInfoPtr pScrn, RamDacRecPtr ramdacPtr,
				   RamDacRegRecPtr ramdacReg)
{
    int i;
    unsigned long status;

    /* Here we pass a short, so that we can evaluate a mask too
     * So that the mask is the high byte and the data the low byte
     * Order is important
     */
    TIRESTORE(TIDAC_latch_ctrl);
    TIRESTORE(TIDAC_true_color_ctrl);
    TIRESTORE(TIDAC_multiplex_ctrl);
    TIRESTORE(TIDAC_clock_select);
    TIRESTORE(TIDAC_palette_page);
    TIRESTORE(TIDAC_general_ctrl);
    TIRESTORE(TIDAC_misc_ctrl);
	    /* 0x2A & 0x2B are reserved */
    TIRESTORE(TIDAC_key_over_low);
    TIRESTORE(TIDAC_key_over_high);
    TIRESTORE(TIDAC_key_red_low);
    TIRESTORE(TIDAC_key_red_high);
    TIRESTORE(TIDAC_key_green_low);
    TIRESTORE(TIDAC_key_green_high);
    TIRESTORE(TIDAC_key_blue_low);
    TIRESTORE(TIDAC_key_blue_high);
    TIRESTORE(TIDAC_key_ctrl);
    (*ramdacPtr->WriteDAC)(pScrn, TIDAC_clock_ctrl, 0, 0x30);
    (*ramdacPtr->WriteDAC)(pScrn, TIDAC_clock_ctrl, 0, 0x38);
    TIRESTORE(TIDAC_clock_ctrl);
    TIRESTORE(TIDAC_sense_test);
    TIRESTORE(TIDAC_ind_curs_ctrl);

    /* only restore clocks if they were valid to begin with */

    if (ramdacReg->DacRegs[TIDAC_PIXEL_VALID]) {
	/* Reset pixel clock */
	(*ramdacPtr->WriteDAC)(pScrn, TIDAC_pll_addr, 0, 0x22);
	(*ramdacPtr->WriteDAC)(pScrn, TIDAC_pll_pixel_data, 0, 0x3c);

	/* Restore N, M & P values for pixel clocks */
	(*ramdacPtr->WriteDAC)(pScrn, TIDAC_pll_addr, 0, 0);
	(*ramdacPtr->WriteDAC)(pScrn, TIDAC_pll_pixel_data, 0,
					ramdacReg->DacRegs[TIDAC_PIXEL_N]);
	(*ramdacPtr->WriteDAC)(pScrn, TIDAC_pll_pixel_data, 0,
					ramdacReg->DacRegs[TIDAC_PIXEL_M]);
	(*ramdacPtr->WriteDAC)(pScrn, TIDAC_pll_pixel_data, 0,
					ramdacReg->DacRegs[TIDAC_PIXEL_P]);

	/* wait for pixel clock to lock */
	i = 1000000;
	do {
	    status = (*ramdacPtr->ReadDAC)(pScrn, TIDAC_pll_pixel_data);
	} while ((!(status & 0x40)) && (--i));
	if (!(status & 0x40)) {
	    xf86DrvMsg(pScrn->scrnIndex, X_ERROR, 
			"Pixel clock setup timed out\n");
	    return;
	}
    }

    if (ramdacReg->DacRegs[TIDAC_LOOP_VALID]) {
	/* Reset loop clock */
	(*ramdacPtr->WriteDAC)(pScrn, TIDAC_pll_addr, 0, 0x22);
	(*ramdacPtr->WriteDAC)(pScrn, TIDAC_pll_loop_data, 0, 0x70);

	/* Restore N, M & P values for pixel clocks */
	(*ramdacPtr->WriteDAC)(pScrn, TIDAC_pll_addr, 0, 0);
	(*ramdacPtr->WriteDAC)(pScrn, TIDAC_pll_loop_data, 0,
					ramdacReg->DacRegs[TIDAC_LOOP_N]);
	(*ramdacPtr->WriteDAC)(pScrn, TIDAC_pll_loop_data, 0,
					ramdacReg->DacRegs[TIDAC_LOOP_M]);
	(*ramdacPtr->WriteDAC)(pScrn, TIDAC_pll_loop_data, 0,
					ramdacReg->DacRegs[TIDAC_LOOP_P]);

	/* wait for loop clock to lock */
	i = 1000000;
	do {
	    status = (*ramdacPtr->ReadDAC)(pScrn, TIDAC_pll_loop_data);
	} while ((!(status & 0x40)) && (--i));
	if (!(status & 0x40)) {
	    xf86DrvMsg(pScrn->scrnIndex, X_ERROR, 
			"Loop clock setup timed out\n");
	    return;
	}
    }

    /* restore palette */
    (*ramdacPtr->WriteAddress)(pScrn, 0);
#ifndef NOT_DONE
    for (i=0;i<768;i++)
	(*ramdacPtr->WriteData)(pScrn, ramdacReg->DAC[i]);
#else
	(*ramdacPtr->WriteData)(pScrn, 0);
	(*ramdacPtr->WriteData)(pScrn, 0);
	(*ramdacPtr->WriteData)(pScrn, 0);
    for (i=0;i<765;i++)
	(*ramdacPtr->WriteData)(pScrn, 0xff);
#endif
}

void
TIramdacSave(ScrnInfoPtr pScrn, RamDacRecPtr ramdacPtr, 
				RamDacRegRecPtr ramdacReg)
{
    int i;
    unsigned long status;

    (*ramdacPtr->ReadAddress)(pScrn, 0);
    for (i=0;i<768;i++)
	ramdacReg->DAC[i] = (*ramdacPtr->ReadData)(pScrn);

    if (ramdacReg->DacRegs[TIDAC_PIXEL_VALID]) {
	/* Read back N,M and P values for pixel clock */
	(*ramdacPtr->WriteDAC)(pScrn, TIDAC_pll_addr, 0, 0);
	ramdacReg->DacRegs[TIDAC_PIXEL_N] = 
		    (*ramdacPtr->ReadDAC)(pScrn, TIDAC_pll_pixel_data);
	(*ramdacPtr->WriteDAC)(pScrn, TIDAC_pll_addr, 0, 0x11);
	ramdacReg->DacRegs[TIDAC_PIXEL_M] = 
		    (*ramdacPtr->ReadDAC)(pScrn, TIDAC_pll_pixel_data);
	(*ramdacPtr->WriteDAC)(pScrn, TIDAC_pll_addr, 0, 0x22);
	ramdacReg->DacRegs[TIDAC_PIXEL_P] = 
		    (*ramdacPtr->ReadDAC)(pScrn, TIDAC_pll_pixel_data);
	(*ramdacPtr->WriteDAC)(pScrn, TIDAC_pll_addr, 0, 0x33);
    }
    if (ramdacReg->DacRegs[TIDAC_LOOP_VALID]) {
	/* Read back N,M and P values for loop clock */
	(*ramdacPtr->WriteDAC)(pScrn, TIDAC_pll_addr, 0, 0);
	ramdacReg->DacRegs[TIDAC_LOOP_N] = 
		    (*ramdacPtr->ReadDAC)(pScrn, TIDAC_pll_loop_data);
	(*ramdacPtr->WriteDAC)(pScrn, TIDAC_pll_addr, 0, 0x11);
	ramdacReg->DacRegs[TIDAC_LOOP_M] = 
		    (*ramdacPtr->ReadDAC)(pScrn, TIDAC_pll_loop_data);
	(*ramdacPtr->WriteDAC)(pScrn, TIDAC_pll_addr, 0, 0x22);
	ramdacReg->DacRegs[TIDAC_LOOP_P] = 
		    (*ramdacPtr->ReadDAC)(pScrn, TIDAC_pll_loop_data);
	(*ramdacPtr->WriteDAC)(pScrn, TIDAC_pll_addr, 0, 0x33);
    }

    /* Order is important */
    TISAVE(TIDAC_latch_ctrl);
    TISAVE(TIDAC_true_color_ctrl);
    TISAVE(TIDAC_multiplex_ctrl);
    TISAVE(TIDAC_clock_select);
    TISAVE(TIDAC_palette_page);
    TISAVE(TIDAC_general_ctrl);
    TISAVE(TIDAC_misc_ctrl);
	    /* 0x2A & 0x2B are reserved */
    TISAVE(TIDAC_key_over_low);
    TISAVE(TIDAC_key_over_high);
    TISAVE(TIDAC_key_red_low);
    TISAVE(TIDAC_key_red_high);
    TISAVE(TIDAC_key_green_low);
    TISAVE(TIDAC_key_green_high);
    TISAVE(TIDAC_key_blue_low);
    TISAVE(TIDAC_key_blue_high);
    TISAVE(TIDAC_key_ctrl);
    TISAVE(TIDAC_clock_ctrl);
    TISAVE(TIDAC_sense_test);
    TISAVE(TIDAC_ind_curs_ctrl);
}

RamDacHelperRecPtr
TIramdacProbe(ScrnInfoPtr pScrn, RamDacSupportedInfoRecPtr ramdacs/* , RamDacRecPtr ramdacPtr*/)
{
    RamDacRecPtr ramdacPtr = RAMDACSCRPTR(pScrn);
    RamDacHelperRecPtr ramdacHelperPtr = NULL;
    Bool RamDacIsSupported = FALSE;
    int TIramdac_ID = -1;
    int i;
    unsigned char id, rev, rev2, id2;

    /* read ID and revision */
    rev = (*ramdacPtr->ReadDAC)(pScrn, TIDAC_rev);
    id = (*ramdacPtr->ReadDAC)(pScrn, TIDAC_id);

    /* check if ID and revision are read only */
    (*ramdacPtr->WriteDAC)(pScrn, ~rev, 0, TIDAC_rev);
    (*ramdacPtr->WriteDAC)(pScrn, ~id, 0, TIDAC_id);
    rev2 = (*ramdacPtr->ReadDAC)(pScrn, TIDAC_rev);
    id2 = (*ramdacPtr->ReadDAC)(pScrn, TIDAC_id);

    switch (id) {
	case TIDAC_TVP_3030_ID:
		if (id == id2 && rev == rev2)  /* check for READ ONLY */
		    TIramdac_ID = TI3030_RAMDAC;
		break;
    }

    (*ramdacPtr->WriteDAC)(pScrn, rev, 0, TIDAC_rev);
    (*ramdacPtr->WriteDAC)(pScrn, id, 0, TIDAC_id);

    if (TIramdac_ID == -1) {
        xf86DrvMsg(pScrn->scrnIndex, X_PROBED, 
		"Cannot determine TI RAMDAC type, aborting\n");
	return NULL;
    } else {
        xf86DrvMsg(pScrn->scrnIndex, X_PROBED, 
		"Attached RAMDAC is %s\n", TIramdacDeviceInfo[TIramdac_ID&0xFFFF]);
    }

    for (i=0;ramdacs[i].token != -1;i++) {
	if (ramdacs[i].token == TIramdac_ID)
	    RamDacIsSupported = TRUE;
    }

    if (!RamDacIsSupported) {
        xf86DrvMsg(pScrn->scrnIndex, X_PROBED, 
		"This TI RAMDAC is NOT supported by this driver, aborting\n");
	return NULL;
    }

    ramdacHelperPtr = RamDacHelperCreateInfoRec();
    switch (TIramdac_ID) {
	case TI3030_RAMDAC:
 	    ramdacHelperPtr->SetBpp = TIramdac3030SetBpp;
    	    ramdacHelperPtr->HWCursorInit = TIramdac3030HWCursorInit;
	    break;
    }
    ramdacPtr->RamDacType = TIramdac_ID;
    ramdacHelperPtr->RamDacType = TIramdac_ID;
    ramdacHelperPtr->Save = TIramdacSave;
    ramdacHelperPtr->Restore = TIramdacRestore;

    return ramdacHelperPtr;
}

void
TIramdac3030SetBpp(ScrnInfoPtr pScrn, RamDacRegRecPtr ramdacReg)
{
    switch (pScrn->bitsPerPixel) {
    case 32:
	/* order is important */
	ramdacReg->DacRegs[TIDAC_latch_ctrl] = 0x06;
	ramdacReg->DacRegs[TIDAC_true_color_ctrl] = 0x46;
	ramdacReg->DacRegs[TIDAC_multiplex_ctrl] = 0x5D;
	ramdacReg->DacRegs[TIDAC_clock_select] = 0x05;
	ramdacReg->DacRegs[TIDAC_palette_page] = 0x00;
	ramdacReg->DacRegs[TIDAC_general_ctrl] = 0x10;
	ramdacReg->DacRegs[TIDAC_misc_ctrl] = 0x3C;
	/* 0x2A & 0x2B are reserved */
	ramdacReg->DacRegs[TIDAC_key_over_low] = 0xFF;
	ramdacReg->DacRegs[TIDAC_key_over_high] = 0xFF;
	ramdacReg->DacRegs[TIDAC_key_red_low] = 0xFF;
	ramdacReg->DacRegs[TIDAC_key_red_high] = 0xFF;
	ramdacReg->DacRegs[TIDAC_key_green_low] = 0xFF;
	ramdacReg->DacRegs[TIDAC_key_green_high] = 0xFF;
	ramdacReg->DacRegs[TIDAC_key_blue_low] = 0xFF;
	ramdacReg->DacRegs[TIDAC_key_blue_high] = 0x00;
	ramdacReg->DacRegs[TIDAC_key_ctrl] = 0x10;
	ramdacReg->DacRegs[TIDAC_sense_test] = 0x00;
	if (ramdacReg->Overlay) {
	    ramdacReg->DacRegs[TIDAC_true_color_ctrl] = 0x06;
	    ramdacReg->DacRegs[TIDAC_misc_ctrl] = 0x3C;
	    ramdacReg->DacRegs[TIDAC_key_ctrl] = 0x01;
	}
	ramdacReg->DacRegs[TIDAC_ind_curs_ctrl] = 0x00;
	break;
    case 24:
	/* order is important */
	ramdacReg->DacRegs[TIDAC_latch_ctrl] = 0x06;
	ramdacReg->DacRegs[TIDAC_true_color_ctrl] = 0x56;
	ramdacReg->DacRegs[TIDAC_multiplex_ctrl] = 0x58;
	ramdacReg->DacRegs[TIDAC_clock_select] = 0x25;
	ramdacReg->DacRegs[TIDAC_palette_page] = 0x00;
	ramdacReg->DacRegs[TIDAC_general_ctrl] = 0x00;
	ramdacReg->DacRegs[TIDAC_misc_ctrl] = 0x2C;
	/* 0x2A & 0x2B are reserved */
	ramdacReg->DacRegs[TIDAC_key_over_low] = 0xFF;
	ramdacReg->DacRegs[TIDAC_key_over_high] = 0xFF;
	ramdacReg->DacRegs[TIDAC_key_red_low] = 0xFF;
	ramdacReg->DacRegs[TIDAC_key_red_high] = 0xFF;
	ramdacReg->DacRegs[TIDAC_key_green_low] = 0xFF;
	ramdacReg->DacRegs[TIDAC_key_green_high] = 0xFF;
	ramdacReg->DacRegs[TIDAC_key_blue_low] = 0xFF;
	ramdacReg->DacRegs[TIDAC_key_blue_high] = 0x00;
	ramdacReg->DacRegs[TIDAC_key_ctrl] = 0x10;
	ramdacReg->DacRegs[TIDAC_sense_test] = 0x00;
	ramdacReg->DacRegs[TIDAC_ind_curs_ctrl] = 0x00;
	break;
    case 16:
	/* order is important */
#ifdef NOT_DONE
	/* Matrox driver uses this */
	ramdacReg->DacRegs[TIDAC_latch_ctrl] = 0x07;
#else
	ramdacReg->DacRegs[TIDAC_latch_ctrl] = 0x06;
#endif
	if (pScrn->depth == 16) {
	    ramdacReg->DacRegs[TIDAC_true_color_ctrl] = 0x45;
	} else {
	    ramdacReg->DacRegs[TIDAC_true_color_ctrl] = 0x44;
	}
#ifdef NOT_DONE
	/* Matrox driver uses this */
	ramdacReg->DacRegs[TIDAC_multiplex_ctrl] = 0x50;
	ramdacReg->DacRegs[TIDAC_clock_select] = 0x15;
	ramdacReg->DacRegs[TIDAC_palette_page] = 0x00;
	ramdacReg->DacRegs[TIDAC_general_ctrl] = 0x00;
	ramdacReg->DacRegs[TIDAC_misc_ctrl] = 0x2C;
#else
	ramdacReg->DacRegs[TIDAC_multiplex_ctrl] = 0x55;
	ramdacReg->DacRegs[TIDAC_clock_select] = 0x05;
	ramdacReg->DacRegs[TIDAC_palette_page] = 0x00;
	ramdacReg->DacRegs[TIDAC_general_ctrl] = 0x10;
	ramdacReg->DacRegs[TIDAC_misc_ctrl] = 0x2C;
#endif
	/* 0x2A & 0x2B are reserved */
	ramdacReg->DacRegs[TIDAC_key_over_low] = 0xFF;
	ramdacReg->DacRegs[TIDAC_key_over_high] = 0xFF;
	ramdacReg->DacRegs[TIDAC_key_red_low] = 0xFF;
	ramdacReg->DacRegs[TIDAC_key_red_high] = 0xFF;
	ramdacReg->DacRegs[TIDAC_key_green_low] = 0xFF;
	ramdacReg->DacRegs[TIDAC_key_green_high] = 0xFF;
	ramdacReg->DacRegs[TIDAC_key_blue_low] = 0xFF;
	ramdacReg->DacRegs[TIDAC_key_blue_high] = 0x00;
	ramdacReg->DacRegs[TIDAC_key_ctrl] = 0x10;
	ramdacReg->DacRegs[TIDAC_sense_test] = 0x00;
	ramdacReg->DacRegs[TIDAC_ind_curs_ctrl] = 0x00;
	break;
    case 8:
	/* order is important */
	ramdacReg->DacRegs[TIDAC_latch_ctrl] = 0x06;
	ramdacReg->DacRegs[TIDAC_true_color_ctrl] = 0x80;
#ifdef NOT_DONE
	ramdacReg->DacRegs[TIDAC_multiplex_ctrl] = 0x48;
	ramdacReg->DacRegs[TIDAC_clock_select] = 0x25;
#else
	ramdacReg->DacRegs[TIDAC_multiplex_ctrl] = 0x4d;
	ramdacReg->DacRegs[TIDAC_clock_select] = 0x05;
#endif
	ramdacReg->DacRegs[TIDAC_palette_page] = 0x00;
#ifdef NOT_DONE
	ramdacReg->DacRegs[TIDAC_general_ctrl] = 0x00;
	ramdacReg->DacRegs[TIDAC_misc_ctrl] = 0x0C;
#else
	ramdacReg->DacRegs[TIDAC_general_ctrl] = 0x10;
	ramdacReg->DacRegs[TIDAC_misc_ctrl] = 0x1C;
#endif
	/* 0x2A & 0x2B are reserved */
	ramdacReg->DacRegs[TIDAC_key_over_low] = 0xFF;
	ramdacReg->DacRegs[TIDAC_key_over_high] = 0xFF;
	ramdacReg->DacRegs[TIDAC_key_red_low] = 0xFF;
	ramdacReg->DacRegs[TIDAC_key_red_high] = 0xFF;
	ramdacReg->DacRegs[TIDAC_key_green_low] = 0xFF;
	ramdacReg->DacRegs[TIDAC_key_green_high] = 0xFF;
	ramdacReg->DacRegs[TIDAC_key_blue_low] = 0xFF;
	ramdacReg->DacRegs[TIDAC_key_blue_high] = 0x00;
	ramdacReg->DacRegs[TIDAC_key_ctrl] = 0x00;
	ramdacReg->DacRegs[TIDAC_sense_test] = 0x00;
	ramdacReg->DacRegs[TIDAC_ind_curs_ctrl] = 0x00;
	break;
    }
}

void 
TIramdac3030ShowCursor(ScrnInfoPtr pScrn)
{
    RamDacRecPtr ramdacPtr = RAMDACSCRPTR(pScrn);

    /* Enable cursor - X11 mode */
    (*ramdacPtr->WriteDAC)(pScrn, TIDAC_ind_curs_ctrl, 0x6c, 0x13);
}

void
TIramdac3030HideCursor(ScrnInfoPtr pScrn)
{
    RamDacRecPtr ramdacPtr = RAMDACSCRPTR(pScrn);

    /* Disable cursor - X11 mode */
    (*ramdacPtr->WriteDAC)(pScrn, TIDAC_ind_curs_ctrl, 0xfc, 0x00);
}

void
TIramdac3030SetCursorPosition(ScrnInfoPtr pScrn, int x, int y)
{
    RamDacRecPtr ramdacPtr = RAMDACSCRPTR(pScrn);

    x += 64;
    y += 64;

    (*ramdacPtr->WriteDAC)(pScrn, TIDAC_CURS_XLOW,  0, x & 0xff);
    (*ramdacPtr->WriteDAC)(pScrn, TIDAC_CURS_XHIGH, 0, (x >> 8) & 0x0f);
    (*ramdacPtr->WriteDAC)(pScrn, TIDAC_CURS_YLOW,  0, y & 0xff);
    (*ramdacPtr->WriteDAC)(pScrn, TIDAC_CURS_YHIGH, 0, (y >> 8) & 0x0f);
}

void
TIramdac3030SetCursorColors(ScrnInfoPtr pScrn, int bg, int fg)
{
    RamDacRecPtr ramdacPtr = RAMDACSCRPTR(pScrn);

    /* Background color */
    (*ramdacPtr->WriteDAC)(pScrn, TIDAC_CURS_WRITE_ADDR, 0, 1);
    (*ramdacPtr->WriteDAC)(pScrn, TIDAC_CURS_COLOR, 0, ((bg&0x00ff0000) >> 16));
    (*ramdacPtr->WriteDAC)(pScrn, TIDAC_CURS_COLOR, 0, ((bg&0x0000ff00) >>  8));
    (*ramdacPtr->WriteDAC)(pScrn, TIDAC_CURS_COLOR, 0,  (bg&0x000000ff)       );

    /* Foreground color */
    (*ramdacPtr->WriteDAC)(pScrn, TIDAC_CURS_WRITE_ADDR, 0, 2);
    (*ramdacPtr->WriteDAC)(pScrn, TIDAC_CURS_COLOR, 0, ((fg&0x00ff0000) >> 16));
    (*ramdacPtr->WriteDAC)(pScrn, TIDAC_CURS_COLOR, 0, ((fg&0x0000ff00) >>  8));
    (*ramdacPtr->WriteDAC)(pScrn, TIDAC_CURS_COLOR, 0,  (fg&0x000000ff)       );
}

void 
TIramdac3030LoadCursorImage(ScrnInfoPtr pScrn, unsigned char *src)
{
    RamDacRecPtr ramdacPtr = RAMDACSCRPTR(pScrn);
    int i = 1024;
int j = 16;

    /* reset A9,A8 */
    (*ramdacPtr->WriteDAC)(pScrn, TIDAC_ind_curs_ctrl, 0xf3, 0x00); 
    /* reset cursor RAM load address A7..A0 */
    (*ramdacPtr->WriteDAC)(pScrn, TIDAC_INDEX, 0x00, 0x00); 

    while(i--) {
	/* NOT_DONE: might need a delay here */
	(*ramdacPtr->WriteDAC)(pScrn, TIDAC_CURS_RAM_DATA, 0, *(src++));
    }
}

static Bool 
TIramdac3030UseHWCursor(ScreenPtr pScr, CursorPtr pCurs)
{
    return TRUE;
}

void
TIramdac3030HWCursorInit(xf86CursorInfoPtr infoPtr)
{
    infoPtr->MaxWidth = 64;
    infoPtr->MaxHeight = 64;
    infoPtr->Flags = HARDWARE_CURSOR_BIT_ORDER_MSBFIRST |
		     HARDWARE_CURSOR_TRUECOLOR_AT_8BPP |
		     HARDWARE_CURSOR_SOURCE_MASK_NOT_INTERLEAVED;
    infoPtr->SetCursorColors = TIramdac3030SetCursorColors;
    infoPtr->SetCursorPosition = TIramdac3030SetCursorPosition;
    infoPtr->LoadCursorImage = TIramdac3030LoadCursorImage;
    infoPtr->HideCursor = TIramdac3030HideCursor;
    infoPtr->ShowCursor = TIramdac3030ShowCursor;
    infoPtr->UseHWCursor = TIramdac3030UseHWCursor;
}