vgasrc/clext.c - seabios - Gitiles

 //  QEMU Cirrus CLGD 54xx VGABIOS Extension.
 //
 // Copyright (C) 2009  Kevin O'Connor <kevin@koconnor.net>
 //  Copyright (c) 2004 Makoto Suzuki (suzu)
 //
 // This file may be distributed under the terms of the GNU LGPLv3 license.

 #include "clext.h" // clext_init
 #include "vgabios.h" // VBE_VENDOR_STRING
 #include "biosvar.h" // GET_GLOBAL
 #include "util.h" // dprintf
 #include "bregs.h" // struct bregs
 #include "vbe.h" // struct vbe_info
 #include "stdvga.h" // VGAREG_SEQU_ADDRESS
 #include "pci.h" // pci_config_readl
 #include "pci_regs.h" // PCI_BASE_ADDRESS_0


 /****************************************************************
  * tables
  ****************************************************************/

 /* VGA */
 static u16 cseq_vga[] VAR16 = {0x0007,0xffff};
 static u16 cgraph_vga[] VAR16 = {0x0009,0x000a,0x000b,0xffff};
 static u16 ccrtc_vga[] VAR16 = {0x001a,0x001b,0x001d,0xffff};

 /* extensions */
 static u16 cgraph_svgacolor[] VAR16 = {
     0x0000,0x0001,0x0002,0x0003,0x0004,0x4005,0x0506,0x0f07,0xff08,
     0x0009,0x000a,0x000b,
     0xffff
 };
 /* 640x480x8 */
 static u16 cseq_640x480x8[] VAR16 = {
     0x0300,0x2101,0x0f02,0x0003,0x0e04,0x1107,
     0x580b,0x580c,0x580d,0x580e,
     0x0412,0x0013,0x2017,
     0x331b,0x331c,0x331d,0x331e,
     0xffff
 };
 static u16 ccrtc_640x480x8[] VAR16 = {
     0x2c11,
     0x5f00,0x4f01,0x4f02,0x8003,0x5204,0x1e05,0x0b06,0x3e07,
     0x4009,0x000c,0x000d,
     0xea10,0xdf12,0x5013,0x4014,0xdf15,0x0b16,0xc317,0xff18,
     0x001a,0x221b,0x001d,
     0xffff
 };
 /* 640x480x16 */
 static u16 cseq_640x480x16[] VAR16 = {
     0x0300,0x2101,0x0f02,0x0003,0x0e04,0x1707,
     0x580b,0x580c,0x580d,0x580e,
     0x0412,0x0013,0x2017,
     0x331b,0x331c,0x331d,0x331e,
     0xffff
 };
 static u16 ccrtc_640x480x16[] VAR16 = {
     0x2c11,
     0x5f00,0x4f01,0x4f02,0x8003,0x5204,0x1e05,0x0b06,0x3e07,
     0x4009,0x000c,0x000d,
     0xea10,0xdf12,0xa013,0x4014,0xdf15,0x0b16,0xc317,0xff18,
     0x001a,0x221b,0x001d,
     0xffff
 };
 /* 640x480x24 */
 static u16 cseq_640x480x24[] VAR16 = {
     0x0300,0x2101,0x0f02,0x0003,0x0e04,0x1507,
     0x580b,0x580c,0x580d,0x580e,
     0x0412,0x0013,0x2017,
     0x331b,0x331c,0x331d,0x331e,
     0xffff
 };
 static u16 ccrtc_640x480x24[] VAR16 = {
     0x2c11,
     0x5f00,0x4f01,0x4f02,0x8003,0x5204,0x1e05,0x0b06,0x3e07,
     0x4009,0x000c,0x000d,
     0xea10,0xdf12,0xf013,0x4014,0xdf15,0x0b16,0xc317,0xff18,
     0x001a,0x221b,0x001d,
     0xffff
 };
 /* 800x600x8 */
 static u16 cseq_800x600x8[] VAR16 = {
     0x0300,0x2101,0x0f02,0x0003,0x0e04,0x1107,
     0x230b,0x230c,0x230d,0x230e,
     0x0412,0x0013,0x2017,
     0x141b,0x141c,0x141d,0x141e,
     0xffff
 };
 static u16 ccrtc_800x600x8[] VAR16 = {
     0x2311,0x7d00,0x6301,0x6302,0x8003,0x6b04,0x1a05,0x9806,0xf007,
     0x6009,0x000c,0x000d,
     0x7d10,0x5712,0x6413,0x4014,0x5715,0x9816,0xc317,0xff18,
     0x001a,0x221b,0x001d,
     0xffff
 };
 /* 800x600x16 */
 static u16 cseq_800x600x16[] VAR16 = {
     0x0300,0x2101,0x0f02,0x0003,0x0e04,0x1707,
     0x230b,0x230c,0x230d,0x230e,
     0x0412,0x0013,0x2017,
     0x141b,0x141c,0x141d,0x141e,
     0xffff
 };
 static u16 ccrtc_800x600x16[] VAR16 = {
     0x2311,0x7d00,0x6301,0x6302,0x8003,0x6b04,0x1a05,0x9806,0xf007,
     0x6009,0x000c,0x000d,
     0x7d10,0x5712,0xc813,0x4014,0x5715,0x9816,0xc317,0xff18,
     0x001a,0x221b,0x001d,
     0xffff
 };
 /* 800x600x24 */
 static u16 cseq_800x600x24[] VAR16 = {
     0x0300,0x2101,0x0f02,0x0003,0x0e04,0x1507,
     0x230b,0x230c,0x230d,0x230e,
     0x0412,0x0013,0x2017,
     0x141b,0x141c,0x141d,0x141e,
     0xffff
 };
 static u16 ccrtc_800x600x24[] VAR16 = {
     0x2311,0x7d00,0x6301,0x6302,0x8003,0x6b04,0x1a05,0x9806,0xf007,
     0x6009,0x000c,0x000d,
     0x7d10,0x5712,0x2c13,0x4014,0x5715,0x9816,0xc317,0xff18,
     0x001a,0x321b,0x001d,
     0xffff
 };
 /* 1024x768x8 */
 static u16 cseq_1024x768x8[] VAR16 = {
     0x0300,0x2101,0x0f02,0x0003,0x0e04,0x1107,
     0x760b,0x760c,0x760d,0x760e,
     0x0412,0x0013,0x2017,
     0x341b,0x341c,0x341d,0x341e,
     0xffff
 };
 static u16 ccrtc_1024x768x8[] VAR16 = {
     0x2911,0xa300,0x7f01,0x7f02,0x8603,0x8304,0x9405,0x2406,0xf507,
     0x6009,0x000c,0x000d,
     0x0310,0xff12,0x8013,0x4014,0xff15,0x2416,0xc317,0xff18,
     0x001a,0x221b,0x001d,
     0xffff
 };
 /* 1024x768x16 */
 static u16 cseq_1024x768x16[] VAR16 = {
     0x0300,0x2101,0x0f02,0x0003,0x0e04,0x1707,
     0x760b,0x760c,0x760d,0x760e,
     0x0412,0x0013,0x2017,
     0x341b,0x341c,0x341d,0x341e,
     0xffff
 };
 static u16 ccrtc_1024x768x16[] VAR16 = {
     0x2911,0xa300,0x7f01,0x7f02,0x8603,0x8304,0x9405,0x2406,0xf507,
     0x6009,0x000c,0x000d,
     0x0310,0xff12,0x0013,0x4014,0xff15,0x2416,0xc317,0xff18,
     0x001a,0x321b,0x001d,
     0xffff
 };
 /* 1024x768x24 */
 static u16 cseq_1024x768x24[] VAR16 = {
     0x0300,0x2101,0x0f02,0x0003,0x0e04,0x1507,
     0x760b,0x760c,0x760d,0x760e,
     0x0412,0x0013,0x2017,
     0x341b,0x341c,0x341d,0x341e,
     0xffff
 };
 static u16 ccrtc_1024x768x24[] VAR16 = {
     0x2911,0xa300,0x7f01,0x7f02,0x8603,0x8304,0x9405,0x2406,0xf507,
     0x6009,0x000c,0x000d,
     0x0310,0xff12,0x8013,0x4014,0xff15,0x2416,0xc317,0xff18,
     0x001a,0x321b,0x001d,
     0xffff
 };
 /* 1280x1024x8 */
 static u16 cseq_1280x1024x8[] VAR16 = {
     0x0300,0x2101,0x0f02,0x0003,0x0e04,0x1107,
     0x760b,0x760c,0x760d,0x760e,
     0x0412,0x0013,0x2017,
     0x341b,0x341c,0x341d,0x341e,
     0xffff
 };
 static u16 ccrtc_1280x1024x8[] VAR16 = {
     0x2911,0xc300,0x9f01,0x9f02,0x8603,0x8304,0x9405,0x2406,0xf707,
     0x6009,0x000c,0x000d,
     0x0310,0xff12,0xa013,0x4014,0xff15,0x2416,0xc317,0xff18,
     0x001a,0x221b,0x001d,
     0xffff
 };
 /* 1280x1024x16 */
 static u16 cseq_1280x1024x16[] VAR16 = {
     0x0300,0x2101,0x0f02,0x0003,0x0e04,0x1707,
     0x760b,0x760c,0x760d,0x760e,
     0x0412,0x0013,0x2017,
     0x341b,0x341c,0x341d,0x341e,
     0xffff
 };
 static u16 ccrtc_1280x1024x16[] VAR16 = {
     0x2911,0xc300,0x9f01,0x9f02,0x8603,0x8304,0x9405,0x2406,0xf707,
     0x6009,0x000c,0x000d,
     0x0310,0xff12,0x4013,0x4014,0xff15,0x2416,0xc317,0xff18,
     0x001a,0x321b,0x001d,
     0xffff
 };

 /* 1600x1200x8 */
 static u16 cseq_1600x1200x8[] VAR16 = {
     0x0300,0x2101,0x0f02,0x0003,0x0e04,0x1107,
     0x760b,0x760c,0x760d,0x760e,
     0x0412,0x0013,0x2017,
     0x341b,0x341c,0x341d,0x341e,
     0xffff
 };
 static u16 ccrtc_1600x1200x8[] VAR16 = {
     0x2911,0xc300,0x9f01,0x9f02,0x8603,0x8304,0x9405,0x2406,0xf707,
     0x6009,0x000c,0x000d,
     0x0310,0xff12,0xc813,0x4014,0xff15,0x2416,0xc317,0xff18,
     0x001a,0x221b,0x001d,
     0xffff
 };

 struct cirrus_mode_s {
     u16 mode;
     struct vgamode_s info;

     u16 hidden_dac; /* 0x3c6 */
     u16 *seq; /* 0x3c4 */
     u16 *graph; /* 0x3ce */
     u16 *crtc; /* 0x3d4 */
 };

 static struct cirrus_mode_s cirrus_modes[] VAR16 = {
     {0x5f,{MM_PACKED,640,480,8},0x00,
      cseq_640x480x8,cgraph_svgacolor,ccrtc_640x480x8},
     {0x64,{MM_DIRECT,640,480,16},0xe1,
      cseq_640x480x16,cgraph_svgacolor,ccrtc_640x480x16},
     {0x66,{MM_DIRECT,640,480,15},0xf0,
      cseq_640x480x16,cgraph_svgacolor,ccrtc_640x480x16},
     {0x71,{MM_DIRECT,640,480,24},0xe5,
      cseq_640x480x24,cgraph_svgacolor,ccrtc_640x480x24},

     {0x5c,{MM_PACKED,800,600,8},0x00,
      cseq_800x600x8,cgraph_svgacolor,ccrtc_800x600x8},
     {0x65,{MM_DIRECT,800,600,16},0xe1,
      cseq_800x600x16,cgraph_svgacolor,ccrtc_800x600x16},
     {0x67,{MM_DIRECT,800,600,15},0xf0,
      cseq_800x600x16,cgraph_svgacolor,ccrtc_800x600x16},

     {0x60,{MM_PACKED,1024,768,8},0x00,
      cseq_1024x768x8,cgraph_svgacolor,ccrtc_1024x768x8},
     {0x74,{MM_DIRECT,1024,768,16},0xe1,
      cseq_1024x768x16,cgraph_svgacolor,ccrtc_1024x768x16},
     {0x68,{MM_DIRECT,1024,768,15},0xf0,
      cseq_1024x768x16,cgraph_svgacolor,ccrtc_1024x768x16},

     {0x78,{MM_DIRECT,800,600,24},0xe5,
      cseq_800x600x24,cgraph_svgacolor,ccrtc_800x600x24},
     {0x79,{MM_DIRECT,1024,768,24},0xe5,
      cseq_1024x768x24,cgraph_svgacolor,ccrtc_1024x768x24},

     {0x6d,{MM_PACKED,1280,1024,8},0x00,
      cseq_1280x1024x8,cgraph_svgacolor,ccrtc_1280x1024x8},
     {0x69,{MM_DIRECT,1280,1024,15},0xf0,
      cseq_1280x1024x16,cgraph_svgacolor,ccrtc_1280x1024x16},
     {0x75,{MM_DIRECT,1280,1024,16},0xe1,
      cseq_1280x1024x16,cgraph_svgacolor,ccrtc_1280x1024x16},

     {0x7b,{MM_PACKED,1600,1200,8},0x00,
      cseq_1600x1200x8,cgraph_svgacolor,ccrtc_1600x1200x8},
 };

 static struct cirrus_mode_s mode_switchback VAR16 =
     {0xfe,{0xff},0,cseq_vga,cgraph_vga,ccrtc_vga};

 static struct {
     u16 vesamode, mode;
 } cirrus_vesa_modelist[] VAR16 = {
     // 640x480x8
     { 0x101, 0x5f },
     // 640x480x15
     { 0x110, 0x66 },
     // 640x480x16
     { 0x111, 0x64 },
     // 640x480x24
     { 0x112, 0x71 },
     // 800x600x8
     { 0x103, 0x5c },
     // 800x600x15
     { 0x113, 0x67 },
     // 800x600x16
     { 0x114, 0x65 },
     // 800x600x24
     { 0x115, 0x78 },
     // 1024x768x8
     { 0x105, 0x60 },
     // 1024x768x15
     { 0x116, 0x68 },
     // 1024x768x16
     { 0x117, 0x74 },
     // 1024x768x24
     { 0x118, 0x79 },
     // 1280x1024x8
     { 0x107, 0x6d },
     // 1280x1024x15
     { 0x119, 0x69 },
     // 1280x1024x16
     { 0x11a, 0x75 },
 };


 /****************************************************************
  * helper functions
  ****************************************************************/

 static u16
 cirrus_vesamode_to_mode(u16 vesamode)
 {
     int i;
     for (i=0; i<ARRAY_SIZE(cirrus_vesa_modelist); i++)
         if (GET_GLOBAL(cirrus_vesa_modelist[i].vesamode) == vesamode)
             return GET_GLOBAL(cirrus_vesa_modelist[i].mode);
     return 0;
 }

 static struct cirrus_mode_s *
 cirrus_get_modeentry(int mode)
 {
     int transmode = cirrus_vesamode_to_mode(mode);
     if (transmode)
         mode = transmode;
     struct cirrus_mode_s *table_g = cirrus_modes;
     while (table_g < &cirrus_modes[ARRAY_SIZE(cirrus_modes)]) {
         u16 tmode = GET_GLOBAL(table_g->mode);
         if (tmode == mode)
             return table_g;
         table_g++;
     }
     return NULL;
 }

 struct vgamode_s *
 clext_find_mode(int mode)
 {
     struct cirrus_mode_s *table_g = cirrus_get_modeentry(mode);
     if (table_g)
         return &table_g->info;
     return stdvga_find_mode(mode);
 }

 static void
 cirrus_switch_mode_setregs(u16 *data, u16 port)
 {
     for (;;) {
         u16 val = GET_GLOBAL(*data);
         if (val == 0xffff)
             return;
         outw(val, port);
         data++;
     }
 }

 static void
 cirrus_switch_mode(struct cirrus_mode_s *table)
 {
     // Unlock cirrus special
     stdvga_sequ_write(0x06, 0x12);
     cirrus_switch_mode_setregs(GET_GLOBAL(table->seq), VGAREG_SEQU_ADDRESS);
     cirrus_switch_mode_setregs(GET_GLOBAL(table->graph), VGAREG_GRDC_ADDRESS);
     cirrus_switch_mode_setregs(GET_GLOBAL(table->crtc), stdvga_get_crtc());

     stdvga_pelmask_write(0x00);
     stdvga_pelmask_read();
     stdvga_pelmask_read();
     stdvga_pelmask_read();
     stdvga_pelmask_read();
     stdvga_pelmask_write(GET_GLOBAL(table->hidden_dac));
     stdvga_pelmask_write(0xff);

     u8 memmodel = GET_GLOBAL(table->info.memmodel);
     u8 on = 0;
     if (memmodel == MM_PLANAR)
         on = 0x41;
     else if (memmodel != MM_TEXT)
         on = 0x01;
     stdvga_attr_mask(0x10, 0x01, on);
 }

 static u8
 cirrus_get_memsize(void)
 {
     // get DRAM band width
     u8 v = stdvga_sequ_read(0x0f);
     u8 x = (v >> 3) & 0x03;
     if (x == 0x03 && v & 0x80)
         // 4MB
         return 0x40;
     return 0x04 << x;
 }

 static void
 cirrus_enable_16k_granularity(void)
 {
     stdvga_grdc_mask(0x0b, 0x00, 0x20);
 }

 static void
 cirrus_clear_vram(u16 param)
 {
     cirrus_enable_16k_granularity();
     u8 count = GET_GLOBAL(VBE_total_memory) / (16 * 1024);
     u8 i;
     for (i=0; i<count; i++) {
         stdvga_grdc_write(0x09, i);
         memset16_far(SEG_GRAPH, 0, param, 16 * 1024);
     }
     stdvga_grdc_write(0x09, 0x00);
 }

 int
 clext_set_mode(int mode, int flags)
 {
     dprintf(1, "cirrus mode %x\n", mode);
     SET_BDA(vbe_mode, 0);
     struct cirrus_mode_s *table_g = cirrus_get_modeentry(mode);
     if (table_g) {
         cirrus_switch_mode(table_g);
         if (!(flags & MF_LINEARFB))
             cirrus_enable_16k_granularity();
         if (!(flags & MF_NOCLEARMEM))
             cirrus_clear_vram(0);
         SET_BDA(video_mode, mode);
         SET_BDA(vbe_mode, mode | flags);
         return 0;
     }
     cirrus_switch_mode(&mode_switchback);
     dprintf(1, "cirrus mode switch regular\n");
     return stdvga_set_mode(mode, flags);
 }

 static int
 cirrus_check(void)
 {
     stdvga_sequ_write(0x06, 0x92);
     return stdvga_sequ_read(0x06) == 0x12;
 }


 /****************************************************************
  * extbios
  ****************************************************************/

 static void
 clext_101280(struct bregs *regs)
 {
     u8 v = stdvga_crtc_read(stdvga_get_crtc(), 0x27);
     if (v == 0xa0)
         // 5430
         regs->ax = 0x0032;
     else if (v == 0xb8)
         // 5446
         regs->ax = 0x0039;
     else
         regs->ax = 0x00ff;
     regs->bx = 0x00;
     return;
 }

 static void
 clext_101281(struct bregs *regs)
 {
     // XXX
     regs->ax = 0x0100;
 }

 static void
 clext_101282(struct bregs *regs)
 {
     regs->al = stdvga_crtc_read(stdvga_get_crtc(), 0x27) & 0x03;
     regs->ah = 0xAF;
 }

 static void
 clext_101285(struct bregs *regs)
 {
     regs->al = GET_GLOBAL(VBE_total_memory) / (64*1024);
 }

 static void
 clext_10129a(struct bregs *regs)
 {
     regs->ax = 0x4060;
     regs->cx = 0x1132;
 }

 extern void a0h_callback(void);
 ASM16(
     // fatal: not implemented yet
     "a0h_callback:"
     "cli\n"
     "hlt\n"
     "retf");

 static void
 clext_1012a0(struct bregs *regs)
 {
     struct cirrus_mode_s *table_g = cirrus_get_modeentry(regs->al & 0x7f);
     regs->ah = (table_g ? 1 : 0);
     regs->si = 0xffff;
     regs->di = regs->ds = regs->es = regs->bx = (u32)a0h_callback;
 }

 static void
 clext_1012a1(struct bregs *regs)
 {
     regs->bx = 0x0e00; // IBM 8512/8513, color
 }

 static void
 clext_1012a2(struct bregs *regs)
 {
     regs->al = 0x07; // HSync 31.5 - 64.0 kHz
 }

 static void
 clext_1012ae(struct bregs *regs)
 {
     regs->al = 0x01; // High Refresh 75Hz
 }

 static void
 clext_1012XX(struct bregs *regs)
 {
     debug_stub(regs);
 }

 void
 clext_1012(struct bregs *regs)
 {
     switch (regs->bl) {
     case 0x80: clext_101280(regs); break;
     case 0x81: clext_101281(regs); break;
     case 0x82: clext_101282(regs); break;
     case 0x85: clext_101285(regs); break;
     case 0x9a: clext_10129a(regs); break;
     case 0xa0: clext_1012a0(regs); break;
     case 0xa1: clext_1012a1(regs); break;
     case 0xa2: clext_1012a2(regs); break;
     case 0xae: clext_1012ae(regs); break;
     default:   clext_1012XX(regs); break;
     }
 }


 /****************************************************************
  * vesa calls
  ****************************************************************/

 void
 clext_list_modes(u16 seg, u16 *dest, u16 *last)
 {
     int i;
     for (i=0; i<ARRAY_SIZE(cirrus_vesa_modelist) && dest<last; i++) {
         SET_FARVAR(seg, *dest, GET_GLOBAL(cirrus_vesa_modelist[i].vesamode));
         dest++;
     }
     stdvga_list_modes(seg, dest, last);
 }

 static u8
 cirrus_get_bpp_bytes(void)
 {
     u8 v = stdvga_sequ_read(0x07) & 0x0e;
     if (v == 0x06)
         v &= 0x02;
     v >>= 1;
     if (v != 0x04)
         v++;
     return v;
 }

 static void
 cirrus_set_line_offset(u16 new_line_offset)
 {
     new_line_offset /= 8;
     u16 crtc_addr = stdvga_get_crtc();
     stdvga_crtc_write(crtc_addr, 0x13, new_line_offset);
     stdvga_crtc_mask(crtc_addr, 0x1b, 0x10, (new_line_offset & 0x100) >> 4);
 }

 static u16
 cirrus_get_line_offset(void)
 {
     u16 crtc_addr = stdvga_get_crtc();
     u8 reg13 = stdvga_crtc_read(crtc_addr, 0x13);
     u8 reg1b = stdvga_crtc_read(crtc_addr, 0x1b);
     return (((reg1b & 0x10) << 4) + reg13) * 8;
 }

 static void
 cirrus_set_start_addr(u32 addr)
 {
     u16 crtc_addr = stdvga_get_crtc();
     stdvga_crtc_write(crtc_addr, 0x0d, addr);
     stdvga_crtc_write(crtc_addr, 0x0c, addr >> 8);
     stdvga_crtc_mask(crtc_addr, 0x1d, 0x80, (addr & 0x0800) >> 4);
     stdvga_crtc_mask(crtc_addr, 0x1b, 0x0d
                      , ((addr & 0x0100) >> 8) | ((addr & 0x0600) >> 7));
 }

 static u32
 cirrus_get_start_addr(void)
 {
     u16 crtc_addr = stdvga_get_crtc();
     u8 b2 = stdvga_crtc_read(crtc_addr, 0x0c);
     u8 b1 = stdvga_crtc_read(crtc_addr, 0x0d);
     u8 b3 = stdvga_crtc_read(crtc_addr, 0x1b);
     u8 b4 = stdvga_crtc_read(crtc_addr, 0x1d);
     return (b1 | (b2<<8) | ((b3 & 0x01) << 16) | ((b3 & 0x0c) << 15)
             | ((b4 & 0x80) << 12));
 }

 static void
 cirrus_vesa_05h(struct bregs *regs)
 {
     if (regs->bl > 1)
         goto fail;
     if (regs->bh == 0) {
         // set mempage
         if (regs->dx >= 0x100)
             goto fail;
         stdvga_grdc_write(regs->bl + 9, regs->dx);
     } else if (regs->bh == 1) {
         // get mempage
         regs->dx = stdvga_grdc_read(regs->bl + 9);
     } else
         goto fail;

     regs->ax = 0x004f;
     return;
 fail:
     regs->ax = 0x014f;
 }

 static void
 cirrus_vesa_06h(struct bregs *regs)
 {
     if (regs->bl > 2) {
         regs->ax = 0x0100;
         return;
     }

     if (regs->bl == 0x00) {
         cirrus_set_line_offset(cirrus_get_bpp_bytes() * regs->cx);
     } else if (regs->bl == 0x02) {
         cirrus_set_line_offset(regs->cx);
     }

     u32 v = cirrus_get_line_offset();
     regs->cx = v / cirrus_get_bpp_bytes();
     regs->bx = v;
     regs->dx = GET_GLOBAL(VBE_total_memory) / v;
     regs->ax = 0x004f;
 }

 static void
 cirrus_vesa_07h(struct bregs *regs)
 {
     if (regs->bl == 0x80 || regs->bl == 0x00) {
         u32 addr = (cirrus_get_bpp_bytes() * regs->cx
                     + cirrus_get_line_offset() * regs->dx);
         cirrus_set_start_addr(addr / 4);
     } else if (regs->bl == 0x01) {
         u32 addr = cirrus_get_start_addr() * 4;
         u32 linelength = cirrus_get_line_offset();
         regs->dx = addr / linelength;
         regs->cx = (addr % linelength) / cirrus_get_bpp_bytes();
     } else {
         regs->ax = 0x0100;
         return;
     }

     regs->ax = 0x004f;
 }

 static void
 cirrus_vesa_10h(struct bregs *regs)
 {
     if (regs->bl == 0x00) {
         regs->bx = 0x0f30;
         regs->ax = 0x004f;
         return;
     }
     if (regs->bl == 0x01) {
         SET_BDA(vbe_flag, regs->bh);
         regs->ax = 0x004f;
         return;
     }
     if (regs->bl == 0x02) {
         regs->bh = GET_BDA(vbe_flag);
         regs->ax = 0x004f;
         return;
     }
     regs->ax = 0x014f;
 }

 static void
 cirrus_vesa_not_handled(struct bregs *regs)
 {
     debug_stub(regs);
     regs->ax = 0x014f;
 }

 void
 cirrus_vesa(struct bregs *regs)
 {
     switch (regs->al) {
     case 0x05: cirrus_vesa_05h(regs); break;
     case 0x06: cirrus_vesa_06h(regs); break;
     case 0x07: cirrus_vesa_07h(regs); break;
     case 0x10: cirrus_vesa_10h(regs); break;
     default:   cirrus_vesa_not_handled(regs); break;
     }
 }


 /****************************************************************
  * init
  ****************************************************************/

 int
 clext_init(void)
 {
     int ret = stdvga_init();
     if (ret)
         return ret;

     dprintf(1, "cirrus init\n");
     if (! cirrus_check())
         return -1;
     dprintf(1, "cirrus init 2\n");

     u32 lfb_addr = 0;
     int bdf = GET_GLOBAL(VgaBDF);
     if (CONFIG_VGA_PCI && bdf >= 0)
         lfb_addr = (pci_config_readl(bdf, PCI_BASE_ADDRESS_0)
                     & PCI_BASE_ADDRESS_MEM_MASK);
     SET_VGA(VBE_framebuffer, lfb_addr);
     u16 totalmem = cirrus_get_memsize();
     SET_VGA(VBE_total_memory, totalmem * 64 * 1024);
     SET_VGA(VBE_win_granularity, 16);

     // memory setup
     stdvga_sequ_write(0x0a, stdvga_sequ_read(0x0f) & 0x18);
     // set vga mode
     stdvga_sequ_write(0x07, 0x00);
     // reset bitblt
     stdvga_grdc_write(0x31, 0x04);
     stdvga_grdc_write(0x31, 0x00);

     return 0;
 }
	// QEMU Cirrus CLGD 54xx VGABIOS Extension.
	//
	// Copyright (C) 2009 Kevin O'Connor <kevin@koconnor.net>
	// Copyright (c) 2004 Makoto Suzuki (suzu)
	//
	// This file may be distributed under the terms of the GNU LGPLv3 license.

	#include "clext.h" // clext_init
	#include "vgabios.h" // VBE_VENDOR_STRING
	#include "biosvar.h" // GET_GLOBAL
	#include "util.h" // dprintf
	#include "bregs.h" // struct bregs
	#include "vbe.h" // struct vbe_info
	#include "stdvga.h" // VGAREG_SEQU_ADDRESS
	#include "pci.h" // pci_config_readl
	#include "pci_regs.h" // PCI_BASE_ADDRESS_0


	/****************************************************************
	* tables
	****************************************************************/

	/* VGA */
	static u16 cseq_vga[] VAR16 = {0x0007,0xffff};
	static u16 cgraph_vga[] VAR16 = {0x0009,0x000a,0x000b,0xffff};
	static u16 ccrtc_vga[] VAR16 = {0x001a,0x001b,0x001d,0xffff};

	/* extensions */
	static u16 cgraph_svgacolor[] VAR16 = {
	0x0000,0x0001,0x0002,0x0003,0x0004,0x4005,0x0506,0x0f07,0xff08,
	0x0009,0x000a,0x000b,
	0xffff
	};
	/* 640x480x8 */
	static u16 cseq_640x480x8[] VAR16 = {
	0x0300,0x2101,0x0f02,0x0003,0x0e04,0x1107,
	0x580b,0x580c,0x580d,0x580e,
	0x0412,0x0013,0x2017,
	0x331b,0x331c,0x331d,0x331e,
	0xffff
	};
	static u16 ccrtc_640x480x8[] VAR16 = {
	0x2c11,
	0x5f00,0x4f01,0x4f02,0x8003,0x5204,0x1e05,0x0b06,0x3e07,
	0x4009,0x000c,0x000d,
	0xea10,0xdf12,0x5013,0x4014,0xdf15,0x0b16,0xc317,0xff18,
	0x001a,0x221b,0x001d,
	0xffff
	};
	/* 640x480x16 */
	static u16 cseq_640x480x16[] VAR16 = {
	0x0300,0x2101,0x0f02,0x0003,0x0e04,0x1707,
	0x580b,0x580c,0x580d,0x580e,
	0x0412,0x0013,0x2017,
	0x331b,0x331c,0x331d,0x331e,
	0xffff
	};
	static u16 ccrtc_640x480x16[] VAR16 = {
	0x2c11,
	0x5f00,0x4f01,0x4f02,0x8003,0x5204,0x1e05,0x0b06,0x3e07,
	0x4009,0x000c,0x000d,
	0xea10,0xdf12,0xa013,0x4014,0xdf15,0x0b16,0xc317,0xff18,
	0x001a,0x221b,0x001d,
	0xffff
	};
	/* 640x480x24 */
	static u16 cseq_640x480x24[] VAR16 = {
	0x0300,0x2101,0x0f02,0x0003,0x0e04,0x1507,
	0x580b,0x580c,0x580d,0x580e,
	0x0412,0x0013,0x2017,
	0x331b,0x331c,0x331d,0x331e,
	0xffff
	};
	static u16 ccrtc_640x480x24[] VAR16 = {
	0x2c11,
	0x5f00,0x4f01,0x4f02,0x8003,0x5204,0x1e05,0x0b06,0x3e07,
	0x4009,0x000c,0x000d,
	0xea10,0xdf12,0xf013,0x4014,0xdf15,0x0b16,0xc317,0xff18,
	0x001a,0x221b,0x001d,
	0xffff
	};
	/* 800x600x8 */
	static u16 cseq_800x600x8[] VAR16 = {
	0x0300,0x2101,0x0f02,0x0003,0x0e04,0x1107,
	0x230b,0x230c,0x230d,0x230e,
	0x0412,0x0013,0x2017,
	0x141b,0x141c,0x141d,0x141e,
	0xffff
	};
	static u16 ccrtc_800x600x8[] VAR16 = {
	0x2311,0x7d00,0x6301,0x6302,0x8003,0x6b04,0x1a05,0x9806,0xf007,
	0x6009,0x000c,0x000d,
	0x7d10,0x5712,0x6413,0x4014,0x5715,0x9816,0xc317,0xff18,
	0x001a,0x221b,0x001d,
	0xffff
	};
	/* 800x600x16 */
	static u16 cseq_800x600x16[] VAR16 = {
	0x0300,0x2101,0x0f02,0x0003,0x0e04,0x1707,
	0x230b,0x230c,0x230d,0x230e,
	0x0412,0x0013,0x2017,
	0x141b,0x141c,0x141d,0x141e,
	0xffff
	};
	static u16 ccrtc_800x600x16[] VAR16 = {
	0x2311,0x7d00,0x6301,0x6302,0x8003,0x6b04,0x1a05,0x9806,0xf007,
	0x6009,0x000c,0x000d,
	0x7d10,0x5712,0xc813,0x4014,0x5715,0x9816,0xc317,0xff18,
	0x001a,0x221b,0x001d,
	0xffff
	};
	/* 800x600x24 */
	static u16 cseq_800x600x24[] VAR16 = {
	0x0300,0x2101,0x0f02,0x0003,0x0e04,0x1507,
	0x230b,0x230c,0x230d,0x230e,
	0x0412,0x0013,0x2017,
	0x141b,0x141c,0x141d,0x141e,
	0xffff
	};
	static u16 ccrtc_800x600x24[] VAR16 = {
	0x2311,0x7d00,0x6301,0x6302,0x8003,0x6b04,0x1a05,0x9806,0xf007,
	0x6009,0x000c,0x000d,
	0x7d10,0x5712,0x2c13,0x4014,0x5715,0x9816,0xc317,0xff18,
	0x001a,0x321b,0x001d,
	0xffff
	};
	/* 1024x768x8 */
	static u16 cseq_1024x768x8[] VAR16 = {
	0x0300,0x2101,0x0f02,0x0003,0x0e04,0x1107,
	0x760b,0x760c,0x760d,0x760e,
	0x0412,0x0013,0x2017,
	0x341b,0x341c,0x341d,0x341e,
	0xffff
	};
	static u16 ccrtc_1024x768x8[] VAR16 = {
	0x2911,0xa300,0x7f01,0x7f02,0x8603,0x8304,0x9405,0x2406,0xf507,
	0x6009,0x000c,0x000d,
	0x0310,0xff12,0x8013,0x4014,0xff15,0x2416,0xc317,0xff18,
	0x001a,0x221b,0x001d,
	0xffff
	};
	/* 1024x768x16 */
	static u16 cseq_1024x768x16[] VAR16 = {
	0x0300,0x2101,0x0f02,0x0003,0x0e04,0x1707,
	0x760b,0x760c,0x760d,0x760e,
	0x0412,0x0013,0x2017,
	0x341b,0x341c,0x341d,0x341e,
	0xffff
	};
	static u16 ccrtc_1024x768x16[] VAR16 = {
	0x2911,0xa300,0x7f01,0x7f02,0x8603,0x8304,0x9405,0x2406,0xf507,
	0x6009,0x000c,0x000d,
	0x0310,0xff12,0x0013,0x4014,0xff15,0x2416,0xc317,0xff18,
	0x001a,0x321b,0x001d,
	0xffff
	};
	/* 1024x768x24 */
	static u16 cseq_1024x768x24[] VAR16 = {
	0x0300,0x2101,0x0f02,0x0003,0x0e04,0x1507,
	0x760b,0x760c,0x760d,0x760e,
	0x0412,0x0013,0x2017,
	0x341b,0x341c,0x341d,0x341e,
	0xffff
	};
	static u16 ccrtc_1024x768x24[] VAR16 = {
	0x2911,0xa300,0x7f01,0x7f02,0x8603,0x8304,0x9405,0x2406,0xf507,
	0x6009,0x000c,0x000d,
	0x0310,0xff12,0x8013,0x4014,0xff15,0x2416,0xc317,0xff18,
	0x001a,0x321b,0x001d,
	0xffff
	};
	/* 1280x1024x8 */
	static u16 cseq_1280x1024x8[] VAR16 = {
	0x0300,0x2101,0x0f02,0x0003,0x0e04,0x1107,
	0x760b,0x760c,0x760d,0x760e,
	0x0412,0x0013,0x2017,
	0x341b,0x341c,0x341d,0x341e,
	0xffff
	};
	static u16 ccrtc_1280x1024x8[] VAR16 = {
	0x2911,0xc300,0x9f01,0x9f02,0x8603,0x8304,0x9405,0x2406,0xf707,
	0x6009,0x000c,0x000d,
	0x0310,0xff12,0xa013,0x4014,0xff15,0x2416,0xc317,0xff18,
	0x001a,0x221b,0x001d,
	0xffff
	};
	/* 1280x1024x16 */
	static u16 cseq_1280x1024x16[] VAR16 = {
	0x0300,0x2101,0x0f02,0x0003,0x0e04,0x1707,
	0x760b,0x760c,0x760d,0x760e,
	0x0412,0x0013,0x2017,
	0x341b,0x341c,0x341d,0x341e,
	0xffff
	};
	static u16 ccrtc_1280x1024x16[] VAR16 = {
	0x2911,0xc300,0x9f01,0x9f02,0x8603,0x8304,0x9405,0x2406,0xf707,
	0x6009,0x000c,0x000d,
	0x0310,0xff12,0x4013,0x4014,0xff15,0x2416,0xc317,0xff18,
	0x001a,0x321b,0x001d,
	0xffff
	};

	/* 1600x1200x8 */
	static u16 cseq_1600x1200x8[] VAR16 = {
	0x0300,0x2101,0x0f02,0x0003,0x0e04,0x1107,
	0x760b,0x760c,0x760d,0x760e,
	0x0412,0x0013,0x2017,
	0x341b,0x341c,0x341d,0x341e,
	0xffff
	};
	static u16 ccrtc_1600x1200x8[] VAR16 = {
	0x2911,0xc300,0x9f01,0x9f02,0x8603,0x8304,0x9405,0x2406,0xf707,
	0x6009,0x000c,0x000d,
	0x0310,0xff12,0xc813,0x4014,0xff15,0x2416,0xc317,0xff18,
	0x001a,0x221b,0x001d,
	0xffff
	};

	struct cirrus_mode_s {
	u16 mode;
	struct vgamode_s info;

	u16 hidden_dac; /* 0x3c6 */
	u16 seq; / 0x3c4 */
	u16 graph; / 0x3ce */
	u16 crtc; / 0x3d4 */
	};

	static struct cirrus_mode_s cirrus_modes[] VAR16 = {
	{0x5f,{MM_PACKED,640,480,8},0x00,
	cseq_640x480x8,cgraph_svgacolor,ccrtc_640x480x8},
	{0x64,{MM_DIRECT,640,480,16},0xe1,
	cseq_640x480x16,cgraph_svgacolor,ccrtc_640x480x16},
	{0x66,{MM_DIRECT,640,480,15},0xf0,
	cseq_640x480x16,cgraph_svgacolor,ccrtc_640x480x16},
	{0x71,{MM_DIRECT,640,480,24},0xe5,
	cseq_640x480x24,cgraph_svgacolor,ccrtc_640x480x24},

	{0x5c,{MM_PACKED,800,600,8},0x00,
	cseq_800x600x8,cgraph_svgacolor,ccrtc_800x600x8},
	{0x65,{MM_DIRECT,800,600,16},0xe1,
	cseq_800x600x16,cgraph_svgacolor,ccrtc_800x600x16},
	{0x67,{MM_DIRECT,800,600,15},0xf0,
	cseq_800x600x16,cgraph_svgacolor,ccrtc_800x600x16},

	{0x60,{MM_PACKED,1024,768,8},0x00,
	cseq_1024x768x8,cgraph_svgacolor,ccrtc_1024x768x8},
	{0x74,{MM_DIRECT,1024,768,16},0xe1,
	cseq_1024x768x16,cgraph_svgacolor,ccrtc_1024x768x16},
	{0x68,{MM_DIRECT,1024,768,15},0xf0,
	cseq_1024x768x16,cgraph_svgacolor,ccrtc_1024x768x16},

	{0x78,{MM_DIRECT,800,600,24},0xe5,
	cseq_800x600x24,cgraph_svgacolor,ccrtc_800x600x24},
	{0x79,{MM_DIRECT,1024,768,24},0xe5,
	cseq_1024x768x24,cgraph_svgacolor,ccrtc_1024x768x24},

	{0x6d,{MM_PACKED,1280,1024,8},0x00,
	cseq_1280x1024x8,cgraph_svgacolor,ccrtc_1280x1024x8},
	{0x69,{MM_DIRECT,1280,1024,15},0xf0,
	cseq_1280x1024x16,cgraph_svgacolor,ccrtc_1280x1024x16},
	{0x75,{MM_DIRECT,1280,1024,16},0xe1,
	cseq_1280x1024x16,cgraph_svgacolor,ccrtc_1280x1024x16},

	{0x7b,{MM_PACKED,1600,1200,8},0x00,
	cseq_1600x1200x8,cgraph_svgacolor,ccrtc_1600x1200x8},
	};

	static struct cirrus_mode_s mode_switchback VAR16 =
	{0xfe,{0xff},0,cseq_vga,cgraph_vga,ccrtc_vga};

	static struct {
	u16 vesamode, mode;
	} cirrus_vesa_modelist[] VAR16 = {
	// 640x480x8
	{ 0x101, 0x5f },
	// 640x480x15
	{ 0x110, 0x66 },
	// 640x480x16
	{ 0x111, 0x64 },
	// 640x480x24
	{ 0x112, 0x71 },
	// 800x600x8
	{ 0x103, 0x5c },
	// 800x600x15
	{ 0x113, 0x67 },
	// 800x600x16
	{ 0x114, 0x65 },
	// 800x600x24
	{ 0x115, 0x78 },
	// 1024x768x8
	{ 0x105, 0x60 },
	// 1024x768x15
	{ 0x116, 0x68 },
	// 1024x768x16
	{ 0x117, 0x74 },
	// 1024x768x24
	{ 0x118, 0x79 },
	// 1280x1024x8
	{ 0x107, 0x6d },
	// 1280x1024x15
	{ 0x119, 0x69 },
	// 1280x1024x16
	{ 0x11a, 0x75 },
	};


	/****************************************************************
	* helper functions
	****************************************************************/

	static u16
	cirrus_vesamode_to_mode(u16 vesamode)
	{
	int i;
	for (i=0; i<ARRAY_SIZE(cirrus_vesa_modelist); i++)
	if (GET_GLOBAL(cirrus_vesa_modelist[i].vesamode) == vesamode)
	return GET_GLOBAL(cirrus_vesa_modelist[i].mode);
	return 0;
	}

	static struct cirrus_mode_s *
	cirrus_get_modeentry(int mode)
	{
	int transmode = cirrus_vesamode_to_mode(mode);
	if (transmode)
	mode = transmode;
	struct cirrus_mode_s *table_g = cirrus_modes;
	while (table_g < &cirrus_modes[ARRAY_SIZE(cirrus_modes)]) {
	u16 tmode = GET_GLOBAL(table_g->mode);
	if (tmode == mode)
	return table_g;
	table_g++;
	}
	return NULL;
	}

	struct vgamode_s *
	clext_find_mode(int mode)
	{
	struct cirrus_mode_s *table_g = cirrus_get_modeentry(mode);
	if (table_g)
	return &table_g->info;
	return stdvga_find_mode(mode);
	}

	static void
	cirrus_switch_mode_setregs(u16 *data, u16 port)
	{
	for (;;) {
	u16 val = GET_GLOBAL(*data);
	if (val == 0xffff)
	return;
	outw(val, port);
	data++;
	}
	}

	static void
	cirrus_switch_mode(struct cirrus_mode_s *table)
	{
	// Unlock cirrus special
	stdvga_sequ_write(0x06, 0x12);
	cirrus_switch_mode_setregs(GET_GLOBAL(table->seq), VGAREG_SEQU_ADDRESS);
	cirrus_switch_mode_setregs(GET_GLOBAL(table->graph), VGAREG_GRDC_ADDRESS);
	cirrus_switch_mode_setregs(GET_GLOBAL(table->crtc), stdvga_get_crtc());

	stdvga_pelmask_write(0x00);
	stdvga_pelmask_read();
	stdvga_pelmask_read();
	stdvga_pelmask_read();
	stdvga_pelmask_read();
	stdvga_pelmask_write(GET_GLOBAL(table->hidden_dac));
	stdvga_pelmask_write(0xff);

	u8 memmodel = GET_GLOBAL(table->info.memmodel);
	u8 on = 0;
	if (memmodel == MM_PLANAR)
	on = 0x41;
	else if (memmodel != MM_TEXT)
	on = 0x01;
	stdvga_attr_mask(0x10, 0x01, on);
	}

	static u8
	cirrus_get_memsize(void)
	{
	// get DRAM band width
	u8 v = stdvga_sequ_read(0x0f);
	u8 x = (v >> 3) & 0x03;
	if (x == 0x03 && v & 0x80)
	// 4MB
	return 0x40;
	return 0x04 << x;
	}

	static void
	cirrus_enable_16k_granularity(void)
	{
	stdvga_grdc_mask(0x0b, 0x00, 0x20);
	}

	static void
	cirrus_clear_vram(u16 param)
	{
	cirrus_enable_16k_granularity();
	u8 count = GET_GLOBAL(VBE_total_memory) / (16 * 1024);
	u8 i;
	for (i=0; i<count; i++) {
	stdvga_grdc_write(0x09, i);
	memset16_far(SEG_GRAPH, 0, param, 16 * 1024);
	}
	stdvga_grdc_write(0x09, 0x00);
	}

	int
	clext_set_mode(int mode, int flags)
	{
	dprintf(1, "cirrus mode %x\n", mode);
	SET_BDA(vbe_mode, 0);
	struct cirrus_mode_s *table_g = cirrus_get_modeentry(mode);
	if (table_g) {
	cirrus_switch_mode(table_g);
	if (!(flags & MF_LINEARFB))
	cirrus_enable_16k_granularity();
	if (!(flags & MF_NOCLEARMEM))
	cirrus_clear_vram(0);
	SET_BDA(video_mode, mode);
	SET_BDA(vbe_mode, mode \| flags);
	return 0;
	}
	cirrus_switch_mode(&mode_switchback);
	dprintf(1, "cirrus mode switch regular\n");
	return stdvga_set_mode(mode, flags);
	}

	static int
	cirrus_check(void)
	{
	stdvga_sequ_write(0x06, 0x92);
	return stdvga_sequ_read(0x06) == 0x12;
	}


	/****************************************************************
	* extbios
	****************************************************************/

	static void
	clext_101280(struct bregs *regs)
	{
	u8 v = stdvga_crtc_read(stdvga_get_crtc(), 0x27);
	if (v == 0xa0)
	// 5430
	regs->ax = 0x0032;
	else if (v == 0xb8)
	// 5446
	regs->ax = 0x0039;
	else
	regs->ax = 0x00ff;
	regs->bx = 0x00;
	return;
	}

	static void
	clext_101281(struct bregs *regs)
	{
	// XXX
	regs->ax = 0x0100;
	}

	static void
	clext_101282(struct bregs *regs)
	{
	regs->al = stdvga_crtc_read(stdvga_get_crtc(), 0x27) & 0x03;
	regs->ah = 0xAF;
	}

	static void
	clext_101285(struct bregs *regs)
	{
	regs->al = GET_GLOBAL(VBE_total_memory) / (64*1024);
	}

	static void
	clext_10129a(struct bregs *regs)
	{
	regs->ax = 0x4060;
	regs->cx = 0x1132;
	}

	extern void a0h_callback(void);
	ASM16(
	// fatal: not implemented yet
	"a0h_callback:"
	"cli\n"
	"hlt\n"
	"retf");

	static void
	clext_1012a0(struct bregs *regs)
	{
	struct cirrus_mode_s *table_g = cirrus_get_modeentry(regs->al & 0x7f);
	regs->ah = (table_g ? 1 : 0);
	regs->si = 0xffff;
	regs->di = regs->ds = regs->es = regs->bx = (u32)a0h_callback;
	}

	static void
	clext_1012a1(struct bregs *regs)
	{
	regs->bx = 0x0e00; // IBM 8512/8513, color
	}

	static void
	clext_1012a2(struct bregs *regs)
	{
	regs->al = 0x07; // HSync 31.5 - 64.0 kHz
	}

	static void
	clext_1012ae(struct bregs *regs)
	{
	regs->al = 0x01; // High Refresh 75Hz
	}

	static void
	clext_1012XX(struct bregs *regs)
	{
	debug_stub(regs);
	}

	void
	clext_1012(struct bregs *regs)
	{
	switch (regs->bl) {
	case 0x80: clext_101280(regs); break;
	case 0x81: clext_101281(regs); break;
	case 0x82: clext_101282(regs); break;
	case 0x85: clext_101285(regs); break;
	case 0x9a: clext_10129a(regs); break;
	case 0xa0: clext_1012a0(regs); break;
	case 0xa1: clext_1012a1(regs); break;
	case 0xa2: clext_1012a2(regs); break;
	case 0xae: clext_1012ae(regs); break;
	default: clext_1012XX(regs); break;
	}
	}


	/****************************************************************
	* vesa calls
	****************************************************************/

	void
	clext_list_modes(u16 seg, u16 dest, u16 last)
	{
	int i;
	for (i=0; i<ARRAY_SIZE(cirrus_vesa_modelist) && dest<last; i++) {
	SET_FARVAR(seg, *dest, GET_GLOBAL(cirrus_vesa_modelist[i].vesamode));
	dest++;
	}
	stdvga_list_modes(seg, dest, last);
	}

	static u8
	cirrus_get_bpp_bytes(void)
	{
	u8 v = stdvga_sequ_read(0x07) & 0x0e;
	if (v == 0x06)
	v &= 0x02;
	v >>= 1;
	if (v != 0x04)
	v++;
	return v;
	}

	static void
	cirrus_set_line_offset(u16 new_line_offset)
	{
	new_line_offset /= 8;
	u16 crtc_addr = stdvga_get_crtc();
	stdvga_crtc_write(crtc_addr, 0x13, new_line_offset);
	stdvga_crtc_mask(crtc_addr, 0x1b, 0x10, (new_line_offset & 0x100) >> 4);
	}

	static u16
	cirrus_get_line_offset(void)
	{
	u16 crtc_addr = stdvga_get_crtc();
	u8 reg13 = stdvga_crtc_read(crtc_addr, 0x13);
	u8 reg1b = stdvga_crtc_read(crtc_addr, 0x1b);
	return (((reg1b & 0x10) << 4) + reg13) * 8;
	}

	static void
	cirrus_set_start_addr(u32 addr)
	{
	u16 crtc_addr = stdvga_get_crtc();
	stdvga_crtc_write(crtc_addr, 0x0d, addr);
	stdvga_crtc_write(crtc_addr, 0x0c, addr >> 8);
	stdvga_crtc_mask(crtc_addr, 0x1d, 0x80, (addr & 0x0800) >> 4);
	stdvga_crtc_mask(crtc_addr, 0x1b, 0x0d
	, ((addr & 0x0100) >> 8) \| ((addr & 0x0600) >> 7));
	}

	static u32
	cirrus_get_start_addr(void)
	{
	u16 crtc_addr = stdvga_get_crtc();
	u8 b2 = stdvga_crtc_read(crtc_addr, 0x0c);
	u8 b1 = stdvga_crtc_read(crtc_addr, 0x0d);
	u8 b3 = stdvga_crtc_read(crtc_addr, 0x1b);
	u8 b4 = stdvga_crtc_read(crtc_addr, 0x1d);
	return (b1 \| (b2<<8) \| ((b3 & 0x01) << 16) \| ((b3 & 0x0c) << 15)
	\| ((b4 & 0x80) << 12));
	}

	static void
	cirrus_vesa_05h(struct bregs *regs)
	{
	if (regs->bl > 1)
	goto fail;
	if (regs->bh == 0) {
	// set mempage
	if (regs->dx >= 0x100)
	goto fail;
	stdvga_grdc_write(regs->bl + 9, regs->dx);
	} else if (regs->bh == 1) {
	// get mempage
	regs->dx = stdvga_grdc_read(regs->bl + 9);
	} else
	goto fail;

	regs->ax = 0x004f;
	return;
	fail:
	regs->ax = 0x014f;
	}

	static void
	cirrus_vesa_06h(struct bregs *regs)
	{
	if (regs->bl > 2) {
	regs->ax = 0x0100;
	return;
	}

	if (regs->bl == 0x00) {
	cirrus_set_line_offset(cirrus_get_bpp_bytes() * regs->cx);
	} else if (regs->bl == 0x02) {
	cirrus_set_line_offset(regs->cx);
	}

	u32 v = cirrus_get_line_offset();
	regs->cx = v / cirrus_get_bpp_bytes();
	regs->bx = v;
	regs->dx = GET_GLOBAL(VBE_total_memory) / v;
	regs->ax = 0x004f;
	}

	static void
	cirrus_vesa_07h(struct bregs *regs)
	{
	if (regs->bl == 0x80 \|\| regs->bl == 0x00) {
	u32 addr = (cirrus_get_bpp_bytes() * regs->cx
	+ cirrus_get_line_offset() * regs->dx);
	cirrus_set_start_addr(addr / 4);
	} else if (regs->bl == 0x01) {
	u32 addr = cirrus_get_start_addr() * 4;
	u32 linelength = cirrus_get_line_offset();
	regs->dx = addr / linelength;
	regs->cx = (addr % linelength) / cirrus_get_bpp_bytes();
	} else {
	regs->ax = 0x0100;
	return;
	}

	regs->ax = 0x004f;
	}

	static void
	cirrus_vesa_10h(struct bregs *regs)
	{
	if (regs->bl == 0x00) {
	regs->bx = 0x0f30;
	regs->ax = 0x004f;
	return;
	}
	if (regs->bl == 0x01) {
	SET_BDA(vbe_flag, regs->bh);
	regs->ax = 0x004f;
	return;
	}
	if (regs->bl == 0x02) {
	regs->bh = GET_BDA(vbe_flag);
	regs->ax = 0x004f;
	return;
	}
	regs->ax = 0x014f;
	}

	static void
	cirrus_vesa_not_handled(struct bregs *regs)
	{
	debug_stub(regs);
	regs->ax = 0x014f;
	}

	void
	cirrus_vesa(struct bregs *regs)
	{
	switch (regs->al) {
	case 0x05: cirrus_vesa_05h(regs); break;
	case 0x06: cirrus_vesa_06h(regs); break;
	case 0x07: cirrus_vesa_07h(regs); break;
	case 0x10: cirrus_vesa_10h(regs); break;
	default: cirrus_vesa_not_handled(regs); break;
	}
	}


	/****************************************************************
	* init
	****************************************************************/

	int
	clext_init(void)
	{
	int ret = stdvga_init();
	if (ret)
	return ret;

	dprintf(1, "cirrus init\n");
	if (! cirrus_check())
	return -1;
	dprintf(1, "cirrus init 2\n");

	u32 lfb_addr = 0;
	int bdf = GET_GLOBAL(VgaBDF);
	if (CONFIG_VGA_PCI && bdf >= 0)
	lfb_addr = (pci_config_readl(bdf, PCI_BASE_ADDRESS_0)
	& PCI_BASE_ADDRESS_MEM_MASK);
	SET_VGA(VBE_framebuffer, lfb_addr);
	u16 totalmem = cirrus_get_memsize();
	SET_VGA(VBE_total_memory, totalmem * 64 * 1024);
	SET_VGA(VBE_win_granularity, 16);

	// memory setup
	stdvga_sequ_write(0x0a, stdvga_sequ_read(0x0f) & 0x18);
	// set vga mode
	stdvga_sequ_write(0x07, 0x00);
	// reset bitblt
	stdvga_grdc_write(0x31, 0x04);
	stdvga_grdc_write(0x31, 0x00);

	return 0;
	}