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/*

 * This program is free software; you can redistribute it and/or modify

 * it under the terms of the GNU General Public License as published by

 * the Free Software Foundation; either version 2 of the License, or

 * (at your option) any later version.

 *

 * This program is distributed in the hope that it will be useful,

 * but WITHOUT ANY WARRANTY; without even the implied warranty of

 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the

 * GNU General Public License for more details.

 *

 * You should have received a copy of the GNU General Public License

 * along with this program; if not, write to the Free Software

 * Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA  02111-1307  USA

 *

 */

#include <ll/i386/hw-data.h>

#include <ll/i386/mem.h>

/*

#include <ll/i386/x-dos.h>

#include <ll/i386/x-dosmem.h>

*/

#include <ll/i386/cons.h>

#include <ll/sys/ll/ll-func.h>

#include "s3.h"

#include "chips.h"

enum {

    S3_911, S3_924, S3_801, S3_805, S3_928, S3_864, S3_964, S3_TRIO32,

    S3_TRIO64, S3_866, S3_868, S3_968, S3_765, S3_VIRGE, S3_VIRGE_VX,

    S3_UNKNOWN

};

static const char *s3_chipname[] =

{"911", "924", "801", "805", "928",

 "864", "964", "Trio32", "Trio64",

 "866", "868", "968", "Trio64V+",

 "ViRGE", "ViRGE VX",

 "Unknown S3 chip"};

#define CRT_IC  0x3D4           /* CRT Controller Index - color emulation */

#define CRT_DC  0x3D5           /* CRT Controller Data Register - color emulation */

/* flags used by this driver */

#define S3_LOCALBUS             0x01

#define S3_CLUT8_8              0x02

#define S3_OLD_STEPPING         0x04

DWORD s3_linear_addr = 0;

int s3_chiptype;

int s3_flags;

int s3_memory;

/*      S3 specific Graphic drivers...  */

static void s3_lock(void)

{

    outp(0x3d4, 0x39);

    outp(0x3d5, 0x00);

    outp(0x3d4, 0x38);

    outp(0x3d5, 0x00);

}

static void s3_lock_enh(void)

{

    BYTE tmp;

    if (s3_chiptype > S3_911) {

        outp(0x3d4, 40);

        tmp = inp(0x3d5);

        outp(0x3d5, tmp & ~0x01);

    }

    s3_lock();

}

static void s3_unlock(void)

{

    outp(0x3d4, 0x38);

    outp(0x3d5, 0x48);

    outp(0x3d4, 0x39);

    outp(0x3d5, 0xA5);

}

static void s3_unlock_enh(void)

{

    BYTE tmp;

    s3_unlock();

    if (s3_chiptype > S3_911) {

        outp(0x3d4, 0x40);

        tmp = inp(0x3d5);

        outp(0x3d5, tmp | 0x01);

    }

}

static int s3_init(int par1, int par2)

{

    int id, rev;

    BYTE config;

    s3_unlock();

    s3_flags = 0;               /* initialize */

    outp(0x3d4, 0x30);  /* Get chip id. */

    id = inp(0x3d5);

    rev = id & 0x0F;

    if (id >= 0xE0) {

        outp(0x3d4, 0x2D);

        id = inp(0x3d5) << 8;

        outp(0x3d4, 0x2E);

        id |= inp(0x3d5);

        outp(0x3d4, 0x2F);

        rev = inp(0x3d5);

    }

    s3_chiptype = -1;

    outp(0x3d4, 0x36);  /* Get config info */

    config = inp(0x3d5);

    switch (id & 0xf0) {

        case 0x80:

            if (rev == 1) {

                s3_chiptype = S3_911;

                break;

            }

            if (rev == 2) {

                s3_chiptype = S3_924;

                break;

            }

            break;

        case 0xa0:

            switch (config & 0x03) {

                case 0x00:

                case 0x01:

                    /* EISA or VLB - 805 */

                    s3_chiptype = S3_805;

                    /* ARI: Test stepping: 0:B, 1:unknown, 2,3,4:C, 8:I, >=5:D */

                    if ((rev & 0x0F) < 2)

                        s3_flags |= S3_OLD_STEPPING;        /* can't handle 1152 width */

                    break;

                case 0x03:

                    /* ISA - 801 */

                    s3_chiptype = S3_801;

                    /* Stepping same as 805, just ISA */

                    if ((rev & 0x0F) < 2)

                        s3_flags |= S3_OLD_STEPPING;        /* can't handle 1152 width */

                    break;

            }

            break;

        case 0x90:

            s3_chiptype = S3_928;

            if ((rev & 0x0F) < 4)       /* ARI: Stepping D or below */

                s3_flags |= S3_OLD_STEPPING;    /* can't handle 1152 width */

            break;

        case 0xB0:

            /* 928P */

            s3_chiptype = S3_928;

            break;

        case 0xC0:

            s3_chiptype = S3_864;

            break;

        case 0xD0:

            s3_chiptype = S3_964;

            break;

        default:

            switch (id) {

                case 0x8811:

                    switch (id & 0xFFF0) {

                        case 0x10E0:

                            s3_chiptype = S3_TRIO32;

                            break;

                        case 0x01E0: /* S3Trio64V2/DX ... any others? */

                        case 0x11E0:

                            if (rev & 0x0400)

                                s3_chiptype = S3_765;

                            else

                                s3_chiptype = S3_TRIO64;

                            break;

                    }

                case 0x883d:  /*ME*/

                    s3_chiptype = S3_VIRGE_VX;

                    break;

                case 0x5631: /* ViRGE ID */

                    s3_chiptype = S3_VIRGE;

                    break;

                case 0x8901:  /*ME*/

                    s3_chiptype = S3_765;

                    break;

                case 0x80E0:

                    s3_chiptype = S3_866;       /* Not Ok... */

                    break;

                case 0x8880:

                    s3_chiptype = S3_868;

                break;

                case 0x88f0:        /* XXXX From data book; XF86 says 0xB0E0? */

                    s3_chiptype = S3_968;

                    break;

                default:

                    s3_chiptype = S3_UNKNOWN;

                    break;

            }

    }

/*      s3_lock();*/

    if (s3_chiptype == -1) {

        return -1;

    }

    if (s3_chiptype == S3_UNKNOWN) {

        cprintf("svgalib: S3: Unknown chip id %02x\n", id);

        return -1;

    }

    if (s3_chiptype <= S3_924) {

        if ((config & 0x20) != 0) {

            s3_memory = 512;

        } else {

            s3_memory = 1024;

        }

    } else {

        if (s3_chiptype == S3_VIRGE_VX) {

            BYTE config2;

            int m1;

            outp(0x3d4, 0x37);

            config2 = inp(0x3d5);

            switch ((config & 0x60) >> 5) {

                case 0:

                    s3_memory = 2 * 1024;

                    break;

                case 1:

                    s3_memory = 4 * 1024;

                    break;

                case 2:

                    s3_memory = 6 * 1024;

                    break;

                case 3:

                    s3_memory = 8 * 1024;

                    break;

            }

            m1 = 0;

            switch ((config2 & 0x60) >> 5) {

                case 0:

                    m1 = 4 * 1024;

                    break;

                case 2:

                    m1 = 2 * 1024;

                    break;

            }

            cprintf("M1: %d        M2: %d\n", s3_memory, m1);

            s3_memory -= m1;

        } else {

            /* look at bits 5, 6 and 7 */

            switch ((config & 0xE0) >> 5) {

                case 0:

                    s3_memory = 4096;

                    break;

                case 2:

                    s3_memory = 3072;

                    break;

                case 3:

                    s3_memory = 8192;

                    break;

                case 4:

                    s3_memory = 2048;

                    break;

                case 5:

                    s3_memory = 6144;

                    break;

                case 6:

                    s3_memory = 1024;

                    break;

                case 7:

                    s3_memory = 512;

                    break;          /* Trio32 */

            }

        }

    }

    if ((config & 0x03) < 3)        /* XXXX 928P is ignored */

    s3_flags |= S3_LOCALBUS;

    cprintf("svgalib: Using S3 driver (%s, %dK).\n", s3_chipname[s3_chiptype],

               s3_memory);

    if (s3_flags & S3_OLD_STEPPING)

        cprintf("svgalib: Chip revision cannot handle modes with width 1152.\n");

    if (s3_chiptype > S3_864) {

        cprintf("svgalib: s3: chipsets newer than S3-864 is not supported well yet.\n");

    }

#ifdef DAC

    cardspecs = malloc(sizeof(CardSpecs));

    cardspecs->videoMemory = s3_memory;

    cardspecs->nClocks = 0;

    /* cardspecs->maxHorizontalCrtc = 2040; SL: kills 800x600x32k and above */

    cardspecs->maxHorizontalCrtc = 4088;

    cardspecs->flags = INTERLACE_DIVIDE_VERT;

    /* Process S3-specific config file options. */

    __svgalib_read_options(s3_config_options, s3_process_option);

#ifdef INCLUDE_S3_TRIO64_DAC

    if ((s3_chiptype == S3_TRIO64 || s3_chiptype == S3_765) && dac_used == NULL)        dac_used = &__svgalib_Trio64_methods;

#endif

    if (dac_used == NULL)

        dac_used = __svgalib_probeDacs(dacs_to_probe);

    else

        dac_used->initialize();

    if (dac_used == NULL) {

        /* Not supported. */

        cprintf("svgalib: s3: Assuming normal VGA DAC.\n");

#ifdef INCLUDE_NORMAL_DAC

        dac_used = &__svgalib_normal_dac_methods;

        dac_used->initialize();

#else

        cprintf("svgalib: Alas, normal VGA DAC support is not compiled in, goodbye.\n");

        return 1;

#endif

    }

    if (clk_used)

        clk_used->initialize(cardspecs, dac_used);

    dac_used->qualifyCardSpecs(cardspecs, dac_speed);

    /* Initialize standard clocks for unknown DAC. */

    if ((!(cardspecs->flags & CLOCK_PROGRAMMABLE))

        && cardspecs->nClocks == 0) {

        /*

         * Almost all cards have 25 and 28 MHz on VGA clocks 0 and 1,

         * so use these for an unknown DAC, yielding 640x480x256.

         */

        cardspecs->nClocks = 2;

        cardspecs->clocks = malloc(sizeof(int) * 2);

        cardspecs->clocks[0] = 25175;

        cardspecs->clocks[1] = 28322;

    }

    /* Limit pixel clocks according to chip specifications. */

    if (s3_chiptype == S3_864 || s3_chiptype == S3_868) {

        /* Limit max clocks according to 95 MHz DCLK spec. */

        /* SL: might just be 95000 for 4/8bpp since no pixmux'ing */

        LIMIT(cardspecs->maxPixelClock4bpp, 95000 * 2);

        LIMIT(cardspecs->maxPixelClock8bpp, 95000 * 2);

        LIMIT(cardspecs->maxPixelClock16bpp, 95000);

        /* see explanation below */

        LIMIT(cardspecs->maxPixelClock24bpp, 36000);

        /*

         * The official 32bpp limit is 47500, but we allow

         * 50 MHz for VESA 800x600 timing (actually the

         * S3-864 doesn't have the horizontal timing range

         * to run unmodified VESA 800x600 72 Hz timings).

         */

        LIMIT(cardspecs->maxPixelClock32bpp, 50000);

    }

    __svgalib_driverspecs = &__svgalib_s3_driverspecs;

#endif          /*      DAC & c.        */

    s3_lock();

    return 0;

}

int s3_test(void)

{

    BYTE new_val1, new_val2;

    s3_unlock();

    outp(0x3d4, 0x47);

    outp(0x3d5, 0xff);

    new_val1 = inp(0x3d5);

    outp(0x3d5, 0x00);

    new_val2 = inp(0x3d5);

    s3_lock();

    if ((new_val1 == 0xff) && (new_val2 == 0x00)) {

        if (s3_init(0, 0))       /* type not OK */

            return 0;

        return 1;

    }

    cprintf("V1: %x         V2: %x\n", new_val1, new_val2);

    return 0;

}

DWORD s3_getmem(void)

{

    return s3_memory * 1024;

}

void s3_showinfo(void)

{

    cprintf("\t Using S3 driver (%s, %dK).\n", s3_chipname[s3_chiptype],

               s3_memory);

    if (s3_flags & S3_OLD_STEPPING) {

        cprintf("\t Chip revision cannot handle modes with width 1152.\n");

    }

    if (s3_chiptype > S3_864) {

        cprintf("\t s3: chipsets newer than S3-864 is not supported well yet.\n");

    }

    cprintf ("\t s3: Frame Linear Buffer @ %lx (%ld)\n", s3_linear_addr, s3_linear_addr);

}

/*      These are important!!!  */

void s3_setpage(int page)

{

    s3_unlock();

    outp(0x3d4, 0x35);

    outp(0x3d5, (inp(0x3d5) & 0xF0) | (page & 0x0F));

/*      is it important???

    if (s3_chiptype >= S3_801) {

        outb(0x3d4, 0x51);

        outb(0x3d5, (inb(0x3d5) & ~0x0C) | ((page & 0x30) >> 2));

    }

*/

    inp(0x3d5);                 /* ARI: Ferraro says: required for first generation 911 only */

    s3_lock();

}

void s3_setpage864(int page)

{

    /* Let's try this... */

    s3_unlock();

    /* "Linear" mode banking. */

    outp(0x3d4, 0x6A);

    outp(0x3d5, (inp(0x3d5) & ~0x3F) | page);

    s3_lock();

}

void s3_linear(DWORD l_a)

{

    BYTE r59, r5A, tmp, linopt;

    BYTE i3;

    s3_setpage(0);

    r59 = l_a >> 24;

    r5A = (l_a >> 16) & 0x08;

    if (s3_memory <= 1024) {

        linopt = 0x15;

    } else if (s3_memory <= 2048) {

        linopt = 0x16;

    } else {

        linopt = 0x17;

    }

    s3_unlock();

/*#ifdef OLD*/

/*      4 805...        */

      outp(0x3d4, 0x40);

      i3 = inp(0x3d5);

      i3 = (i3 & 0xf6) | 0x0a;/* enable fast write buffer and disable

                                 * 8514/a mode */

      outp(0x3d4, i3);

/*      DISABLE_MMIO;*/

      { unsigned char tmp;

      outp(0x3d4, 0x53);

      tmp = inp(0x3d5);

      outp(0x3d5, tmp & 0xEF); }

/*      outb (vgaCRReg, s3LinApOpt | s3SAM256);

      if (!S3_x64_SERIES(s3ChipId)) {

         outb (vgaCRIndex, 0x54);

         outb (vgaCRReg, (s3Port54 + 07));

      }

*/

/*#endif*/

    outp(0x3d4, 0x58);

    tmp = inp(0x3d5) /*& 0x80*/;

/*    outp(0x3d5, linopt & ~0x04 | tmp);*/

    outp(0x3d5, linopt | tmp);

    outp(0x3d4, 0x59);

    outp(0x3d5, r59);

    outp(0x3d4, 0x5A);

    outp(0x3d5, r5A);

    s3_lock();

}