dist/src/g80_display.c

fc5a983dSmrg/*
fc5a983dSmrg * Copyright (c) 2007 NVIDIA, Corporation
fc5a983dSmrg *
fc5a983dSmrg * Permission is hereby granted, free of charge, to any person obtaining a
fc5a983dSmrg * copy of this software and associated documentation files (the
fc5a983dSmrg * "Software"), to deal in the Software without restriction, including
fc5a983dSmrg * without limitation the rights to use, copy, modify, merge, publish,
fc5a983dSmrg * distribute, sublicense, and/or sell copies of the Software, and to
fc5a983dSmrg * permit persons to whom the Software is furnished to do so, subject to
fc5a983dSmrg * the following conditions:
fc5a983dSmrg *
fc5a983dSmrg * The above copyright notice and this permission notice shall be included
fc5a983dSmrg * in all copies or substantial portions of the Software.
fc5a983dSmrg *
fc5a983dSmrg * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS
fc5a983dSmrg * OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF
fc5a983dSmrg * MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT.
fc5a983dSmrg * IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY
fc5a983dSmrg * CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT,
fc5a983dSmrg * TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE
fc5a983dSmrg * SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.
fc5a983dSmrg */
fc5a983dSmrg
fc5a983dSmrg
fc5a983dSmrg#ifdef HAVE_CONFIG_H
fc5a983dSmrg#include "config.h"
fc5a983dSmrg#endif
fc5a983dSmrg
fc5a983dSmrg#include <float.h>
fc5a983dSmrg#include <math.h>
fc5a983dSmrg#include <strings.h>
fc5a983dSmrg#include <unistd.h>
fc5a983dSmrg
fc5a983dSmrg#include "g80_type.h"
fc5a983dSmrg#include "g80_cursor.h"
fc5a983dSmrg#include "g80_display.h"
fc5a983dSmrg#include "g80_output.h"
fc5a983dSmrg
fc5a983dSmrgtypedef struct G80CrtcPrivRec {
fc5a983dSmrg    Head head;
fc5a983dSmrg    int pclk; /* Target pixel clock in kHz */
fc5a983dSmrg    Bool cursorVisible;
fc5a983dSmrg    Bool skipModeFixup;
fc5a983dSmrg    Bool dither;
fc5a983dSmrg} G80CrtcPrivRec, *G80CrtcPrivPtr;
fc5a983dSmrg
fc5a983dSmrgstatic void G80CrtcShowHideCursor(xf86CrtcPtr crtc, Bool show, Bool update);
fc5a983dSmrg
fc5a983dSmrg/*
fc5a983dSmrg * PLL calculation.  pclk is in kHz.
fc5a983dSmrg */
fc5a983dSmrgstatic void
fc5a983dSmrgG80CalcPLL(float pclk, int *pNA, int *pMA, int *pNB, int *pMB, int *pP)
fc5a983dSmrg{
fc5a983dSmrg    const float refclk = 27000.0f;
fc5a983dSmrg    const float minVcoA = 100000;
fc5a983dSmrg    const float maxVcoA = 400000;
fc5a983dSmrg    const float minVcoB = 600000;
fc5a983dSmrg    float maxVcoB = 1400000;
fc5a983dSmrg    const float minUA = 2000;
fc5a983dSmrg    const float maxUA = 400000;
fc5a983dSmrg    const float minUB = 50000;
fc5a983dSmrg    const float maxUB = 200000;
fc5a983dSmrg    const int minNA = 1, maxNA = 255;
fc5a983dSmrg    const int minNB = 1, maxNB = 31;
fc5a983dSmrg    const int minMA = 1, maxMA = 255;
fc5a983dSmrg    const int minMB = 1, maxMB = 31;
fc5a983dSmrg    const int minP = 0, maxP = 6;
fc5a983dSmrg    int lowP, highP;
fc5a983dSmrg    float vcoB;
fc5a983dSmrg
fc5a983dSmrg    int na, ma, nb, mb, p;
fc5a983dSmrg    float bestError = FLT_MAX;
fc5a983dSmrg
fc5a983dSmrg    *pNA = *pMA = *pNB = *pMB = *pP = 0;
fc5a983dSmrg
fc5a983dSmrg    if(maxVcoB < pclk + pclk / 200)
fc5a983dSmrg        maxVcoB = pclk + pclk / 200;
fc5a983dSmrg    if(minVcoB / (1 << maxP) > pclk)
fc5a983dSmrg        pclk = minVcoB / (1 << maxP);
fc5a983dSmrg
fc5a983dSmrg    vcoB = maxVcoB - maxVcoB / 200;
fc5a983dSmrg    lowP = minP;
fc5a983dSmrg    vcoB /= 1 << (lowP + 1);
fc5a983dSmrg
fc5a983dSmrg    while(pclk <= vcoB && lowP < maxP)
fc5a983dSmrg    {
fc5a983dSmrg        vcoB /= 2;
fc5a983dSmrg        lowP++;
fc5a983dSmrg    }
fc5a983dSmrg
fc5a983dSmrg    vcoB = maxVcoB + maxVcoB / 200;
fc5a983dSmrg    highP = lowP;
fc5a983dSmrg    vcoB /= 1 << (highP + 1);
fc5a983dSmrg
fc5a983dSmrg    while(pclk <= vcoB && highP < maxP)
fc5a983dSmrg    {
fc5a983dSmrg        vcoB /= 2;
fc5a983dSmrg        highP++;
fc5a983dSmrg    }
fc5a983dSmrg
fc5a983dSmrg    for(p = lowP; p <= highP; p++)
fc5a983dSmrg    {
fc5a983dSmrg        for(ma = minMA; ma <= maxMA; ma++)
fc5a983dSmrg        {
fc5a983dSmrg            if(refclk / ma < minUA)
fc5a983dSmrg                break;
fc5a983dSmrg            else if(refclk / ma > maxUA)
fc5a983dSmrg                continue;
fc5a983dSmrg
fc5a983dSmrg            for(na = minNA; na <= maxNA; na++)
fc5a983dSmrg            {
fc5a983dSmrg                if(refclk * na / ma < minVcoA || refclk * na / ma > maxVcoA)
fc5a983dSmrg                    continue;
fc5a983dSmrg
fc5a983dSmrg                for(mb = minMB; mb <= maxMB; mb++)
fc5a983dSmrg                {
fc5a983dSmrg                    if(refclk * na / ma / mb < minUB)
fc5a983dSmrg                        break;
fc5a983dSmrg                    else if(refclk * na / ma / mb > maxUB)
fc5a983dSmrg                        continue;
fc5a983dSmrg
fc5a983dSmrg                    nb = rint(pclk * (1 << p) * (ma / (float)na) * mb / refclk);
fc5a983dSmrg
fc5a983dSmrg                    if(nb > maxNB)
fc5a983dSmrg                        break;
fc5a983dSmrg                    else if(nb < minNB)
fc5a983dSmrg                        continue;
fc5a983dSmrg                    else
fc5a983dSmrg                    {
fc5a983dSmrg                        float freq = refclk * (na / (float)ma) * (nb / (float)mb) / (1 << p);
fc5a983dSmrg                        float error = fabsf(pclk - freq);
fc5a983dSmrg                        if(error < bestError) {
fc5a983dSmrg                            *pNA = na;
fc5a983dSmrg                            *pMA = ma;
fc5a983dSmrg                            *pNB = nb;
fc5a983dSmrg                            *pMB = mb;
fc5a983dSmrg                            *pP = p;
fc5a983dSmrg                            bestError = error;
fc5a983dSmrg                        }
fc5a983dSmrg                    }
fc5a983dSmrg                }
fc5a983dSmrg            }
fc5a983dSmrg        }
fc5a983dSmrg    }
fc5a983dSmrg}
fc5a983dSmrg
fc5a983dSmrgstatic void
fc5a983dSmrgG80CrtcSetPClk(xf86CrtcPtr crtc)
fc5a983dSmrg{
fc5a983dSmrg    G80Ptr pNv = G80PTR(crtc->scrn);
fc5a983dSmrg    G80CrtcPrivPtr pPriv = crtc->driver_private;
fc5a983dSmrg    xf86CrtcConfigPtr xf86_config = XF86_CRTC_CONFIG_PTR(crtc->scrn);
fc5a983dSmrg    const int headOff = 0x800 * pPriv->head;
fc5a983dSmrg    int lo_n, lo_m, hi_n, hi_m, p, i;
fc5a983dSmrg    CARD32 lo = pNv->reg[(0x00614104+headOff)/4];
fc5a983dSmrg    CARD32 hi = pNv->reg[(0x00614108+headOff)/4];
fc5a983dSmrg
fc5a983dSmrg    pNv->reg[(0x00614100+headOff)/4] = 0x10000610;
fc5a983dSmrg    lo &= 0xff00ff00;
fc5a983dSmrg    hi &= 0x8000ff00;
fc5a983dSmrg
fc5a983dSmrg    G80CalcPLL(pPriv->pclk, &lo_n, &lo_m, &hi_n, &hi_m, &p);
fc5a983dSmrg
fc5a983dSmrg    lo |= (lo_m << 16) | lo_n;
fc5a983dSmrg    hi |= (p << 28) | (hi_m << 16) | hi_n;
fc5a983dSmrg    pNv->reg[(0x00614104+headOff)/4] = lo;
fc5a983dSmrg    pNv->reg[(0x00614108+headOff)/4] = hi;
fc5a983dSmrg    pNv->reg[(0x00614200+headOff)/4] = 0;
fc5a983dSmrg
fc5a983dSmrg    for(i = 0; i < xf86_config->num_output; i++) {
fc5a983dSmrg        xf86OutputPtr output = xf86_config->output[i];
fc5a983dSmrg
fc5a983dSmrg        if(output->crtc != crtc)
fc5a983dSmrg            continue;
fc5a983dSmrg        G80OutputSetPClk(output, pPriv->pclk);
fc5a983dSmrg    }
fc5a983dSmrg}
fc5a983dSmrg
fc5a983dSmrgvoid
fc5a983dSmrgG80DispCommand(ScrnInfoPtr pScrn, CARD32 addr, CARD32 data)
fc5a983dSmrg{
fc5a983dSmrg    G80Ptr pNv = G80PTR(pScrn);
fc5a983dSmrg
fc5a983dSmrg    pNv->reg[0x00610304/4] = data;
fc5a983dSmrg    pNv->reg[0x00610300/4] = addr | 0x80010001;
fc5a983dSmrg
fc5a983dSmrg    while(pNv->reg[0x00610300/4] & 0x80000000) {
fc5a983dSmrg        const int super = ffs((pNv->reg[0x00610024/4] >> 4) & 7);
fc5a983dSmrg
fc5a983dSmrg        if(super) {
fc5a983dSmrg            if(super == 2) {
fc5a983dSmrg                xf86CrtcConfigPtr xf86_config = XF86_CRTC_CONFIG_PTR(pScrn);
fc5a983dSmrg                const CARD32 r = pNv->reg[0x00610030/4];
fc5a983dSmrg                int i;
fc5a983dSmrg
fc5a983dSmrg                for(i = 0; i < xf86_config->num_crtc; i++)
fc5a983dSmrg                {
fc5a983dSmrg                    xf86CrtcPtr crtc = xf86_config->crtc[i];
fc5a983dSmrg                    G80CrtcPrivPtr pPriv = crtc->driver_private;
fc5a983dSmrg
fc5a983dSmrg                    if(r & (0x200 << pPriv->head))
fc5a983dSmrg                        G80CrtcSetPClk(crtc);
fc5a983dSmrg                }
fc5a983dSmrg            }
fc5a983dSmrg
fc5a983dSmrg            pNv->reg[0x00610024/4] = 8 << super;
fc5a983dSmrg            pNv->reg[0x00610030/4] = 0x80000000;
fc5a983dSmrg        }
fc5a983dSmrg    }
fc5a983dSmrg}
fc5a983dSmrg
fc5a983dSmrgHead
fc5a983dSmrgG80CrtcGetHead(xf86CrtcPtr crtc)
fc5a983dSmrg{
fc5a983dSmrg    G80CrtcPrivPtr pPriv = crtc->driver_private;
fc5a983dSmrg    return pPriv->head;
fc5a983dSmrg}
fc5a983dSmrg
fc5a983dSmrgBool
fc5a983dSmrgG80DispPreInit(ScrnInfoPtr pScrn)
fc5a983dSmrg{
fc5a983dSmrg    G80Ptr pNv = G80PTR(pScrn);
fc5a983dSmrg
fc5a983dSmrg    pNv->reg[0x00610184/4] = pNv->reg[0x00614004/4];
fc5a983dSmrg    pNv->reg[0x00610190/4] = pNv->reg[0x00616100/4];
fc5a983dSmrg    pNv->reg[0x006101a0/4] = pNv->reg[0x00616900/4];
fc5a983dSmrg    pNv->reg[0x00610194/4] = pNv->reg[0x00616104/4];
fc5a983dSmrg    pNv->reg[0x006101a4/4] = pNv->reg[0x00616904/4];
fc5a983dSmrg    pNv->reg[0x00610198/4] = pNv->reg[0x00616108/4];
fc5a983dSmrg    pNv->reg[0x006101a8/4] = pNv->reg[0x00616908/4];
fc5a983dSmrg    pNv->reg[0x0061019C/4] = pNv->reg[0x0061610C/4];
fc5a983dSmrg    pNv->reg[0x006101ac/4] = pNv->reg[0x0061690c/4];
fc5a983dSmrg    pNv->reg[0x006101D0/4] = pNv->reg[0x0061A000/4];
fc5a983dSmrg    pNv->reg[0x006101D4/4] = pNv->reg[0x0061A800/4];
fc5a983dSmrg    pNv->reg[0x006101D8/4] = pNv->reg[0x0061B000/4];
fc5a983dSmrg    pNv->reg[0x006101E0/4] = pNv->reg[0x0061C000/4];
fc5a983dSmrg    pNv->reg[0x006101E4/4] = pNv->reg[0x0061C800/4];
fc5a983dSmrg    pNv->reg[0x0061A004/4] = 0x80550000;
fc5a983dSmrg    pNv->reg[0x0061A010/4] = 0x00000001;
fc5a983dSmrg    pNv->reg[0x0061A804/4] = 0x80550000;
fc5a983dSmrg    pNv->reg[0x0061A810/4] = 0x00000001;
fc5a983dSmrg    pNv->reg[0x0061B004/4] = 0x80550000;
fc5a983dSmrg    pNv->reg[0x0061B010/4] = 0x00000001;
fc5a983dSmrg
fc5a983dSmrg    return TRUE;
fc5a983dSmrg}
fc5a983dSmrg
fc5a983dSmrgBool
fc5a983dSmrgG80DispInit(ScrnInfoPtr pScrn)
fc5a983dSmrg{
fc5a983dSmrg    G80Ptr pNv = G80PTR(pScrn);
fc5a983dSmrg    CARD32 val;
fc5a983dSmrg
fc5a983dSmrg    if(pNv->reg[0x00610024/4] & 0x100) {
fc5a983dSmrg        pNv->reg[0x00610024/4] = 0x100;
fc5a983dSmrg        pNv->reg[0x006194E8/4] &= ~1;
fc5a983dSmrg        while(pNv->reg[0x006194E8/4] & 2);
fc5a983dSmrg    }
fc5a983dSmrg
fc5a983dSmrg    pNv->reg[0x00610200/4] = 0x2b00;
fc5a983dSmrg    do {
fc5a983dSmrg        val = pNv->reg[0x00610200/4];
fc5a983dSmrg
fc5a983dSmrg        if ((val & 0x9f0000) == 0x20000)
fc5a983dSmrg            pNv->reg[0x00610200/4] = val | 0x800000;
fc5a983dSmrg
fc5a983dSmrg        if ((val & 0x3f0000) == 0x30000)
fc5a983dSmrg            pNv->reg[0x00610200/4] = val | 0x200000;
fc5a983dSmrg    } while ((val & 0x1e0000) != 0);
fc5a983dSmrg    pNv->reg[0x00610300/4] = 1;
fc5a983dSmrg    pNv->reg[0x00610200/4] = 0x1000b03;
fc5a983dSmrg    while(!(pNv->reg[0x00610200/4] & 0x40000000));
fc5a983dSmrg
fc5a983dSmrg    C(0x00000084, 0);
fc5a983dSmrg    C(0x00000088, 0);
fc5a983dSmrg    C(0x00000874, 0);
fc5a983dSmrg    C(0x00000800, 0);
fc5a983dSmrg    C(0x00000810, 0);
fc5a983dSmrg    C(0x0000082C, 0);
fc5a983dSmrg
fc5a983dSmrg    return TRUE;
fc5a983dSmrg}
fc5a983dSmrg
fc5a983dSmrgvoid
fc5a983dSmrgG80DispShutdown(ScrnInfoPtr pScrn)
fc5a983dSmrg{
fc5a983dSmrg    G80Ptr pNv = G80PTR(pScrn);
fc5a983dSmrg    xf86CrtcConfigPtr xf86_config = XF86_CRTC_CONFIG_PTR(pScrn);
fc5a983dSmrg    int i;
fc5a983dSmrg
fc5a983dSmrg    for(i = 0; i < xf86_config->num_crtc; i++) {
fc5a983dSmrg        xf86CrtcPtr crtc = xf86_config->crtc[i];
fc5a983dSmrg
fc5a983dSmrg        G80CrtcBlankScreen(crtc, TRUE);
fc5a983dSmrg    }
fc5a983dSmrg
fc5a983dSmrg    C(0x00000080, 0);
fc5a983dSmrg
fc5a983dSmrg    for(i = 0; i < xf86_config->num_crtc; i++) {
fc5a983dSmrg        xf86CrtcPtr crtc = xf86_config->crtc[i];
fc5a983dSmrg
fc5a983dSmrg        if(crtc->enabled) {
fc5a983dSmrg            const CARD32 mask = 4 << G80CrtcGetHead(crtc);
fc5a983dSmrg
fc5a983dSmrg            pNv->reg[0x00610024/4] = mask;
fc5a983dSmrg            while(!(pNv->reg[0x00610024/4] & mask));
fc5a983dSmrg        }
fc5a983dSmrg    }
fc5a983dSmrg
fc5a983dSmrg    pNv->reg[0x00610200/4] = 0;
fc5a983dSmrg    pNv->reg[0x00610300/4] = 0;
fc5a983dSmrg    while((pNv->reg[0x00610200/4] & 0x1e0000) != 0);
fc5a983dSmrg    while((pNv->reg[0x61C030/4] & 0x10000000));
fc5a983dSmrg    while((pNv->reg[0x61C830/4] & 0x10000000));
fc5a983dSmrg}
fc5a983dSmrg
fc5a983dSmrgvoid
fc5a983dSmrgG80CrtcDoModeFixup(DisplayModePtr dst, const DisplayModePtr src)
fc5a983dSmrg{
fc5a983dSmrg    /* Magic mode timing fudge factor */
fc5a983dSmrg    const int fudge = ((src->Flags & V_INTERLACE) && (src->Flags & V_DBLSCAN)) ? 2 : 1;
fc5a983dSmrg    const int interlaceDiv = (src->Flags & V_INTERLACE) ? 2 : 1;
fc5a983dSmrg
fc5a983dSmrg    /* Stash the src timings in the Crtc fields in dst */
fc5a983dSmrg    dst->CrtcHBlankStart = src->CrtcVTotal << 16 | src->CrtcHTotal;
fc5a983dSmrg    dst->CrtcHSyncEnd = ((src->CrtcVSyncEnd - src->CrtcVSyncStart) / interlaceDiv - 1) << 16 |
fc5a983dSmrg        (src->CrtcHSyncEnd - src->CrtcHSyncStart - 1);
fc5a983dSmrg    dst->CrtcHBlankEnd = ((src->CrtcVBlankEnd - src->CrtcVSyncStart) / interlaceDiv - fudge) << 16 |
fc5a983dSmrg        (src->CrtcHBlankEnd - src->CrtcHSyncStart - 1);
fc5a983dSmrg    dst->CrtcHTotal = ((src->CrtcVTotal - src->CrtcVSyncStart + src->CrtcVBlankStart) / interlaceDiv - fudge) << 16 |
fc5a983dSmrg        (src->CrtcHTotal - src->CrtcHSyncStart + src->CrtcHBlankStart - 1);
fc5a983dSmrg    dst->CrtcHSkew = ((src->CrtcVTotal + src->CrtcVBlankEnd - src->CrtcVSyncStart) / 2 - 2) << 16 |
fc5a983dSmrg        ((2*src->CrtcVTotal - src->CrtcVSyncStart + src->CrtcVBlankStart) / 2 - 2);
fc5a983dSmrg}
fc5a983dSmrg
fc5a983dSmrgstatic Bool
fc5a983dSmrgG80CrtcModeFixup(xf86CrtcPtr crtc,
fc5a983dSmrg                 DisplayModePtr mode, DisplayModePtr adjusted_mode)
fc5a983dSmrg{
fc5a983dSmrg    G80CrtcPrivPtr pPriv = crtc->driver_private;
fc5a983dSmrg
fc5a983dSmrg    if(pPriv->skipModeFixup)
fc5a983dSmrg        return TRUE;
fc5a983dSmrg
fc5a983dSmrg    G80CrtcDoModeFixup(adjusted_mode, mode);
fc5a983dSmrg    return TRUE;
fc5a983dSmrg}
fc5a983dSmrg
fc5a983dSmrgstatic void
fc5a983dSmrgG80CrtcModeSet(xf86CrtcPtr crtc, DisplayModePtr mode,
fc5a983dSmrg               DisplayModePtr adjusted_mode, int x, int y)
fc5a983dSmrg{
fc5a983dSmrg    ScrnInfoPtr pScrn = crtc->scrn;
fc5a983dSmrg    G80CrtcPrivPtr pPriv = crtc->driver_private;
fc5a983dSmrg    const int HDisplay = adjusted_mode->HDisplay, VDisplay = adjusted_mode->VDisplay;
fc5a983dSmrg    const int headOff = 0x400 * G80CrtcGetHead(crtc);
fc5a983dSmrg
fc5a983dSmrg    pPriv->pclk = adjusted_mode->Clock;
fc5a983dSmrg
fc5a983dSmrg    C(0x00000804 + headOff, adjusted_mode->Clock | 0x800000);
fc5a983dSmrg    C(0x00000808 + headOff, (adjusted_mode->Flags & V_INTERLACE) ? 2 : 0);
fc5a983dSmrg    C(0x00000810 + headOff, 0);
fc5a983dSmrg    C(0x0000082C + headOff, 0);
fc5a983dSmrg    C(0x00000814 + headOff, adjusted_mode->CrtcHBlankStart);
fc5a983dSmrg    C(0x00000818 + headOff, adjusted_mode->CrtcHSyncEnd);
fc5a983dSmrg    C(0x0000081C + headOff, adjusted_mode->CrtcHBlankEnd);
fc5a983dSmrg    C(0x00000820 + headOff, adjusted_mode->CrtcHTotal);
fc5a983dSmrg    if(adjusted_mode->Flags & V_INTERLACE)
fc5a983dSmrg        C(0x00000824 + headOff, adjusted_mode->CrtcHSkew);
fc5a983dSmrg    C(0x00000868 + headOff, pScrn->virtualY << 16 | pScrn->virtualX);
fc5a983dSmrg    C(0x0000086C + headOff, pScrn->displayWidth * (pScrn->bitsPerPixel / 8) | 0x100000);
fc5a983dSmrg    switch(pScrn->depth) {
fc5a983dSmrg        case  8: C(0x00000870 + headOff, 0x1E00); break;
fc5a983dSmrg        case 15: C(0x00000870 + headOff, 0xE900); break;
fc5a983dSmrg        case 16: C(0x00000870 + headOff, 0xE800); break;
fc5a983dSmrg        case 24: C(0x00000870 + headOff, 0xCF00); break;
fc5a983dSmrg    }
fc5a983dSmrg    G80CrtcSetDither(crtc, pPriv->dither, FALSE);
fc5a983dSmrg    C(0x000008A8 + headOff, 0x40000);
fc5a983dSmrg    C(0x000008C0 + headOff, y << 16 | x);
fc5a983dSmrg    C(0x000008C8 + headOff, VDisplay << 16 | HDisplay);
fc5a983dSmrg    C(0x000008D4 + headOff, 0);
fc5a983dSmrg
fc5a983dSmrg    G80CrtcBlankScreen(crtc, FALSE);
fc5a983dSmrg}
fc5a983dSmrg
fc5a983dSmrgvoid
fc5a983dSmrgG80CrtcBlankScreen(xf86CrtcPtr crtc, Bool blank)
fc5a983dSmrg{
fc5a983dSmrg    ScrnInfoPtr pScrn = crtc->scrn;
fc5a983dSmrg    G80Ptr pNv = G80PTR(pScrn);
fc5a983dSmrg    G80CrtcPrivPtr pPriv = crtc->driver_private;
fc5a983dSmrg    const int headOff = 0x400 * pPriv->head;
fc5a983dSmrg
fc5a983dSmrg    if(blank) {
fc5a983dSmrg        G80CrtcShowHideCursor(crtc, FALSE, FALSE);
fc5a983dSmrg
fc5a983dSmrg        C(0x00000840 + headOff, 0);
fc5a983dSmrg        C(0x00000844 + headOff, 0);
fc5a983dSmrg        if(pNv->architecture != 0x50)
fc5a983dSmrg            C(0x0000085C + headOff, 0);
fc5a983dSmrg        C(0x00000874 + headOff, 0);
fc5a983dSmrg        if(pNv->architecture != 0x50)
fc5a983dSmrg            C(0x0000089C + headOff, 0);
fc5a983dSmrg    } else {
fc5a983dSmrg        C(0x00000860 + headOff, 0);
fc5a983dSmrg        C(0x00000864 + headOff, 0);
fc5a983dSmrg        pNv->reg[0x00610380/4] = 0;
fc5a983dSmrg        pNv->reg[0x00610384/4] = pNv->videoRam * 1024 - 1;
fc5a983dSmrg        pNv->reg[0x00610388/4] = 0x150000;
fc5a983dSmrg        pNv->reg[0x0061038C/4] = 0;
fc5a983dSmrg        C(0x00000884 + headOff, (pNv->videoRam << 2) - 0x40);
fc5a983dSmrg        if(pNv->architecture != 0x50)
fc5a983dSmrg            C(0x0000089C + headOff, 1);
fc5a983dSmrg        if(pPriv->cursorVisible)
fc5a983dSmrg            G80CrtcShowHideCursor(crtc, TRUE, FALSE);
fc5a983dSmrg        C(0x00000840 + headOff, pScrn->depth == 8 ? 0x80000000 : 0xc0000000);
fc5a983dSmrg        C(0x00000844 + headOff, (pNv->videoRam * 1024 - 0x5000) >> 8);
fc5a983dSmrg        if(pNv->architecture != 0x50)
fc5a983dSmrg            C(0x0000085C + headOff, 1);
fc5a983dSmrg        C(0x00000874 + headOff, 1);
fc5a983dSmrg    }
fc5a983dSmrg}
fc5a983dSmrg
fc5a983dSmrgstatic void
fc5a983dSmrgG80CrtcDPMSSet(xf86CrtcPtr crtc, int mode)
fc5a983dSmrg{
fc5a983dSmrg}
fc5a983dSmrg
fc5a983dSmrg/******************************** Cursor stuff ********************************/
fc5a983dSmrgstatic void G80CrtcShowHideCursor(xf86CrtcPtr crtc, Bool show, Bool update)
fc5a983dSmrg{
fc5a983dSmrg    ScrnInfoPtr pScrn = crtc->scrn;
fc5a983dSmrg    G80CrtcPrivPtr pPriv = crtc->driver_private;
fc5a983dSmrg    const int headOff = 0x400 * G80CrtcGetHead(crtc);
fc5a983dSmrg
fc5a983dSmrg    C(0x00000880 + headOff, show ? 0x85000000 : 0x5000000);
fc5a983dSmrg    if(update) {
fc5a983dSmrg        pPriv->cursorVisible = show;
fc5a983dSmrg        C(0x00000080, 0);
fc5a983dSmrg    }
fc5a983dSmrg}
fc5a983dSmrg
fc5a983dSmrgstatic void G80CrtcShowCursor(xf86CrtcPtr crtc)
fc5a983dSmrg{
fc5a983dSmrg    G80CrtcShowHideCursor(crtc, TRUE, TRUE);
fc5a983dSmrg}
fc5a983dSmrg
fc5a983dSmrgstatic void G80CrtcHideCursor(xf86CrtcPtr crtc)
fc5a983dSmrg{
fc5a983dSmrg    G80CrtcShowHideCursor(crtc, FALSE, TRUE);
fc5a983dSmrg}
fc5a983dSmrg
fc5a983dSmrg/******************************** CRTC stuff ********************************/
fc5a983dSmrg
fc5a983dSmrgstatic Bool
fc5a983dSmrgG80CrtcLock(xf86CrtcPtr crtc)
fc5a983dSmrg{
fc5a983dSmrg    return FALSE;
fc5a983dSmrg}
fc5a983dSmrg
fc5a983dSmrgstatic void
fc5a983dSmrgG80CrtcPrepare(xf86CrtcPtr crtc)
fc5a983dSmrg{
fc5a983dSmrg    ScrnInfoPtr pScrn = crtc->scrn;
fc5a983dSmrg    G80CrtcPrivPtr pPriv = crtc->driver_private;
fc5a983dSmrg    xf86CrtcConfigPtr xf86_config = XF86_CRTC_CONFIG_PTR(pScrn);
fc5a983dSmrg    int i;
fc5a983dSmrg
fc5a983dSmrg    for(i = 0; i < xf86_config->num_output; i++) {
fc5a983dSmrg        xf86OutputPtr output = xf86_config->output[i];
fc5a983dSmrg
fc5a983dSmrg        if(!output->crtc)
fc5a983dSmrg            output->funcs->mode_set(output, NULL, NULL);
fc5a983dSmrg    }
fc5a983dSmrg
fc5a983dSmrg    pPriv->skipModeFixup = FALSE;
fc5a983dSmrg}
fc5a983dSmrg
fc5a983dSmrgvoid
fc5a983dSmrgG80CrtcSkipModeFixup(xf86CrtcPtr crtc)
fc5a983dSmrg{
fc5a983dSmrg    G80CrtcPrivPtr pPriv = crtc->driver_private;
fc5a983dSmrg    pPriv->skipModeFixup = TRUE;
fc5a983dSmrg}
fc5a983dSmrg
fc5a983dSmrgvoid
fc5a983dSmrgG80CrtcSetDither(xf86CrtcPtr crtc, Bool dither, Bool update)
fc5a983dSmrg{
fc5a983dSmrg    ScrnInfoPtr pScrn = crtc->scrn;
fc5a983dSmrg    G80CrtcPrivPtr pPriv = crtc->driver_private;
fc5a983dSmrg    const int headOff = 0x400 * G80CrtcGetHead(crtc);
fc5a983dSmrg
fc5a983dSmrg    pPriv->dither = dither;
fc5a983dSmrg
fc5a983dSmrg    C(0x000008A0 + headOff, dither ? 0x11 : 0);
fc5a983dSmrg    if(update) C(0x00000080, 0);
fc5a983dSmrg}
fc5a983dSmrg
fc5a983dSmrgstatic void ComputeAspectScale(DisplayModePtr mode, int *outX, int *outY)
fc5a983dSmrg{
fc5a983dSmrg    float scaleX, scaleY, scale;
fc5a983dSmrg
fc5a983dSmrg    scaleX = mode->CrtcHDisplay / (float)mode->HDisplay;
fc5a983dSmrg    scaleY = mode->CrtcVDisplay / (float)mode->VDisplay;
fc5a983dSmrg
fc5a983dSmrg    if(scaleX > scaleY)
fc5a983dSmrg        scale = scaleY;
fc5a983dSmrg    else
fc5a983dSmrg        scale = scaleX;
fc5a983dSmrg
fc5a983dSmrg    *outX = mode->HDisplay * scale;
fc5a983dSmrg    *outY = mode->VDisplay * scale;
fc5a983dSmrg}
fc5a983dSmrg
fc5a983dSmrgvoid G80CrtcSetScale(xf86CrtcPtr crtc, DisplayModePtr mode,
fc5a983dSmrg                     enum G80ScaleMode scale)
fc5a983dSmrg{
fc5a983dSmrg    ScrnInfoPtr pScrn = crtc->scrn;
fc5a983dSmrg    G80CrtcPrivPtr pPriv = crtc->driver_private;
fc5a983dSmrg    const int headOff = 0x400 * pPriv->head;
fc5a983dSmrg    int outX, outY;
fc5a983dSmrg
fc5a983dSmrg    switch(scale) {
fc5a983dSmrg        default:
fc5a983dSmrg        case G80_SCALE_ASPECT:
fc5a983dSmrg            ComputeAspectScale(mode, &outX, &outY);
fc5a983dSmrg            break;
fc5a983dSmrg
fc5a983dSmrg        case G80_SCALE_OFF:
fc5a983dSmrg        case G80_SCALE_FILL:
fc5a983dSmrg            outX = mode->CrtcHDisplay;
fc5a983dSmrg            outY = mode->CrtcVDisplay;
fc5a983dSmrg            break;
fc5a983dSmrg
fc5a983dSmrg        case G80_SCALE_CENTER:
fc5a983dSmrg            outX = mode->HDisplay;
fc5a983dSmrg            outY = mode->VDisplay;
fc5a983dSmrg            break;
fc5a983dSmrg    }
fc5a983dSmrg
fc5a983dSmrg    if((mode->Flags & V_DBLSCAN) || (mode->Flags & V_INTERLACE) ||
fc5a983dSmrg       mode->HDisplay != outX || mode->VDisplay != outY) {
fc5a983dSmrg        C(0x000008A4 + headOff, 9);
fc5a983dSmrg    } else {
fc5a983dSmrg        C(0x000008A4 + headOff, 0);
fc5a983dSmrg    }
fc5a983dSmrg    C(0x000008D8 + headOff, outY << 16 | outX);
fc5a983dSmrg    C(0x000008DC + headOff, outY << 16 | outX);
fc5a983dSmrg}
fc5a983dSmrg
fc5a983dSmrgstatic void
fc5a983dSmrgG80CrtcCommit(xf86CrtcPtr crtc)
fc5a983dSmrg{
fc5a983dSmrg    ScrnInfoPtr pScrn = crtc->scrn;
fc5a983dSmrg    xf86CrtcConfigPtr xf86_config = XF86_CRTC_CONFIG_PTR(crtc->scrn);
fc5a983dSmrg    int i, crtc_mask = 0;
fc5a983dSmrg
fc5a983dSmrg    /* If any heads are unused, blank them */
fc5a983dSmrg    for(i = 0; i < xf86_config->num_output; i++) {
fc5a983dSmrg        xf86OutputPtr output = xf86_config->output[i];
fc5a983dSmrg
fc5a983dSmrg        if(output->crtc)
fc5a983dSmrg            /* XXXagp: This assumes that xf86_config->crtc[i] is HEADi */
fc5a983dSmrg            crtc_mask |= 1 << G80CrtcGetHead(output->crtc);
fc5a983dSmrg    }
fc5a983dSmrg
fc5a983dSmrg    for(i = 0; i < xf86_config->num_crtc; i++)
fc5a983dSmrg        if(!((1 << i) & crtc_mask))
fc5a983dSmrg            G80CrtcBlankScreen(xf86_config->crtc[i], TRUE);
fc5a983dSmrg
fc5a983dSmrg    C(0x00000080, 0);
fc5a983dSmrg}
fc5a983dSmrg
fc5a983dSmrgstatic const xf86CrtcFuncsRec g80_crtc_funcs = {
fc5a983dSmrg    .dpms = G80CrtcDPMSSet,
fc5a983dSmrg    .save = NULL,
fc5a983dSmrg    .restore = NULL,
fc5a983dSmrg    .lock = G80CrtcLock,
fc5a983dSmrg    .unlock = NULL,
fc5a983dSmrg    .mode_fixup = G80CrtcModeFixup,
fc5a983dSmrg    .prepare = G80CrtcPrepare,
fc5a983dSmrg    .mode_set = G80CrtcModeSet,
fc5a983dSmrg    // .gamma_set = G80DispGammaSet,
fc5a983dSmrg    .commit = G80CrtcCommit,
fc5a983dSmrg    .shadow_create = NULL,
fc5a983dSmrg    .shadow_destroy = NULL,
fc5a983dSmrg    .set_cursor_position = G80SetCursorPosition,
fc5a983dSmrg    .show_cursor = G80CrtcShowCursor,
fc5a983dSmrg    .hide_cursor = G80CrtcHideCursor,
fc5a983dSmrg    .load_cursor_argb = G80LoadCursorARGB,
fc5a983dSmrg    .destroy = NULL,
fc5a983dSmrg};
fc5a983dSmrg
fc5a983dSmrgvoid
fc5a983dSmrgG80DispCreateCrtcs(ScrnInfoPtr pScrn)
fc5a983dSmrg{
fc5a983dSmrg    G80Ptr pNv = G80PTR(pScrn);
fc5a983dSmrg    Head head;
fc5a983dSmrg    xf86CrtcPtr crtc;
fc5a983dSmrg    G80CrtcPrivPtr g80_crtc;
fc5a983dSmrg
fc5a983dSmrg    /* Create a "crtc" object for each head */
fc5a983dSmrg    for(head = HEAD0; head <= HEAD1; head++) {
fc5a983dSmrg        crtc = xf86CrtcCreate(pScrn, &g80_crtc_funcs);
fc5a983dSmrg        if(!crtc) return;
fc5a983dSmrg
fc5a983dSmrg        g80_crtc = xnfcalloc(sizeof(*g80_crtc), 1);
fc5a983dSmrg        g80_crtc->head = head;
fc5a983dSmrg        g80_crtc->dither = pNv->Dither;
fc5a983dSmrg        crtc->driver_private = g80_crtc;
fc5a983dSmrg    }
fc5a983dSmrg}