ref: e81c54ba2ecc673a4d5f8aed0e9b52841fe07b0d
dir: /os/pc/vgamga4xx.c/
/* * Matrox G200, G400 and G450. * see /sys/src/cmd/aux/vga/mga4xx.c */ #include "u.h" #include "../port/lib.h" #include "mem.h" #include "dat.h" #include "fns.h" #include "io.h" #include "../port/error.h" #define Image IMAGE #include <draw.h> #include <memdraw.h> #include <cursor.h> #include "screen.h" enum { MATROX = 0x102B, MGA4xx = 0x0525, MGA200 = 0x0521, Kilo = 1024, Meg = 1024*1024, FCOL = 0x1c24, FXRIGHT = 0x1cac, FXLEFT = 0x1ca8, YDST = 0x1c90, YLEN = 0x1c5c, DWGCTL = 0x1c00, DWG_TRAP = 0x04, DWG_BITBLT = 0x08, DWG_ILOAD = 0x09, DWG_LINEAR = 0x0080, DWG_SOLID = 0x0800, DWG_ARZERO = 0x1000, DWG_SGNZERO = 0x2000, DWG_SHIFTZERO = 0x4000, DWG_REPLACE = 0x000C0000, DWG_REPLACE2 = (DWG_REPLACE | 0x40), DWG_XOR = 0x00060010, DWG_BFCOL = 0x04000000, DWG_BMONOWF = 0x08000000, DWG_TRANSC = 0x40000000, SRCORG = 0x2cb4, PITCH = 0x1c8c, DSTORG = 0x2cb8, PLNWRT = 0x1c1c, ZORG = 0x1c0c, MACCESS = 0x1c04, STATUS = 0x1e14, FXBNDRY = 0x1C84, CXBNDRY = 0x1C80, YTOP = 0x1C98, YBOT = 0x1C9C, YDSTLEN = 0x1C88, AR0 = 0x1C60, AR1 = 0x1C64, AR2 = 0x1C68, AR3 = 0x1C6C, AR4 = 0x1C70, AR5 = 0x1C74, SGN = 0x1C58, SGN_SCANLEFT = 1, SGN_SCANRIGHT = 0, SGN_SDY_POSITIVE = 0, SGN_SDY_NEGATIVE = 4, GO = 0x0100, FIFOSTATUS = 0x1E10, CACHEFLUSH = 0x1FFF, CRTCEXTIDX = 0x1FDE, /* CRTC Extension Index */ CRTCEXTDATA = 0x1FDF, /* CRTC Extension Data */ FILL_OPERAND = 0x800c7804, }; static Pcidev* mgapcimatch(void) { Pcidev* p; p = pcimatch(nil, MATROX, MGA4xx); if (p == nil) p = pcimatch(nil, MATROX, MGA200); return p; } static ulong mga4xxlinear(VGAscr* scr, int* size, int* align) { ulong aperture, oaperture; int oapsize, wasupamem; Pcidev * p; oaperture = scr->aperture; oapsize = scr->apsize; wasupamem = scr->isupamem; if(p = mgapcimatch()){ aperture = p->mem[0].bar & ~0x0F; if(p->did == MGA4xx) *size = 32*Meg; else *size = 8*Meg; } else aperture = 0; if(wasupamem) { if(oaperture == aperture) return oaperture; upafree(oaperture, oapsize); } scr->isupamem = 0; aperture = upamalloc(aperture, *size, *align); if(aperture == 0){ if(wasupamem && upamalloc(oaperture, oapsize, 0)) { aperture = oaperture; scr->isupamem = 1; } else scr->isupamem = 0; } else scr->isupamem = 1; return aperture; } static void mgawrite8(VGAscr* scr, int index, uchar val) { ((uchar*)scr->io)[index] = val; } static uchar mgaread8(VGAscr* scr, int index) { return ((uchar*)scr->io)[index]; } static uchar crtcextset(VGAscr* scr, int index, uchar set, uchar clr) { uchar tmp; mgawrite8(scr, CRTCEXTIDX, index); tmp = mgaread8(scr, CRTCEXTDATA); mgawrite8(scr, CRTCEXTIDX, index); mgawrite8(scr, CRTCEXTDATA, (tmp & ~clr) | set); return tmp; } static void mga4xxenable(VGAscr* scr) { Pcidev * pci; int size, align; ulong aperture; int i, n, k; uchar * p; uchar x[16]; uchar crtcext3; /* * Only once, can't be disabled for now. * scr->io holds the virtual address of * the MMIO registers. */ if(scr->io) return; pci = mgapcimatch(); if(pci == nil) return; scr->io = upamalloc(pci->mem[1].bar & ~0x0F, 16*1024, 0); if(scr->io == 0) return; addvgaseg("mga4xxmmio", scr->io, pci->mem[1].size); scr->io = (ulong)KADDR(scr->io); /* need to map frame buffer here too, so vga can find memory size */ size = 8*Meg; align = 0; aperture = mga4xxlinear(scr, &size, &align); if(aperture) { scr->aperture = aperture; addvgaseg("mga4xxscreen", aperture, size); /* Find out how much memory is here, some multiple of 2 Meg */ /* First Set MGA Mode ... */ crtcext3 = crtcextset(scr, 3, 0x80, 0x00); p = (uchar*)aperture; n = (size / Meg) / 2; for (i = 0; i < n; i++) { k = (2*i+1)*Meg; p[k] = 0; p[k] = i+1; *((uchar*)(scr->io + CACHEFLUSH)) = 0; x[i] = p[k]; } for(i = 1; i < n; i++) if(x[i] != i+1) break; scr->apsize = 2*i*Meg; crtcextset(scr, 3, crtcext3, 0xff); } } enum { Index = 0x00, /* Index */ Data = 0x0A, /* Data */ Cxlsb = 0x0C, /* Cursor X LSB */ Cxmsb = 0x0D, /* Cursor X MSB */ Cylsb = 0x0E, /* Cursor Y LSB */ Cymsb = 0x0F, /* Cursor Y MSB */ Icuradrl = 0x04, /* Cursor Base Address Low */ Icuradrh = 0x05, /* Cursor Base Address High */ Icctl = 0x06, /* Indirect Cursor Control */ }; static void dac4xxdisable(VGAscr* scr) { uchar * dac4xx; if(scr->io == 0) return; dac4xx = KADDR(scr->io+0x3C00); *(dac4xx+Index) = Icctl; *(dac4xx+Data) = 0x00; } static void dac4xxload(VGAscr* scr, Cursor* curs) { int y; uchar * p; uchar * dac4xx; if(scr->io == 0) return; dac4xx = KADDR(scr->io+0x3C00); dac4xxdisable(scr); p = KADDR(scr->storage); for(y = 0; y < 64; y++){ *p++ = 0; *p++ = 0; *p++ = 0; *p++ = 0; *p++ = 0; *p++ = 0; if(y <16){ *p++ = curs->set[1+y*2]|curs->clr[1+2*y]; *p++ = curs->set[y*2]|curs->clr[2*y]; } else{ *p++ = 0; *p++ = 0; } *p++ = 0; *p++ = 0; *p++ = 0; *p++ = 0; *p++ = 0; *p++ = 0; if(y <16){ *p++ = curs->set[1+y*2]; *p++ = curs->set[y*2]; } else{ *p++ = 0; *p++ = 0; } } scr->offset.x = 64 + curs->offset.x; scr->offset.y = 64 + curs->offset.y; *(dac4xx+Index) = Icctl; *(dac4xx+Data) = 0x03; } static int dac4xxmove(VGAscr* scr, Point p) { int x, y; uchar * dac4xx; if(scr->io == 0) return 1; dac4xx = KADDR(scr->io + 0x3C00); x = p.x + scr->offset.x; y = p.y + scr->offset.y; *(dac4xx+Cxlsb) = x & 0xFF; *(dac4xx+Cxmsb) = (x>>8) & 0x0F; *(dac4xx+Cylsb) = y & 0xFF; *(dac4xx+Cymsb) = (y>>8) & 0x0F; return 0; } static void dac4xxenable(VGAscr* scr) { uchar * dac4xx; ulong storage; if(scr->io == 0) return; dac4xx = KADDR(scr->io+0x3C00); dac4xxdisable(scr); storage = (scr->apsize - 4096) & ~0x3ff; *(dac4xx+Index) = Icuradrl; *(dac4xx+Data) = 0xff & (storage >> 10); *(dac4xx+Index) = Icuradrh; *(dac4xx+Data) = 0xff & (storage >> 18); scr->storage = (ulong) KADDR((ulong)scr->aperture + (ulong)storage); /* Show X11-Like Cursor */ *(dac4xx+Index) = Icctl; *(dac4xx+Data) = 0x03; /* Cursor Color 0 : White */ *(dac4xx+Index) = 0x08; *(dac4xx+Data) = 0xff; *(dac4xx+Index) = 0x09; *(dac4xx+Data) = 0xff; *(dac4xx+Index) = 0x0a; *(dac4xx+Data) = 0xff; /* Cursor Color 1 : Black */ *(dac4xx+Index) = 0x0c; *(dac4xx+Data) = 0x00; *(dac4xx+Index) = 0x0d; *(dac4xx+Data) = 0x00; *(dac4xx+Index) = 0x0e; *(dac4xx+Data) = 0x00; /* Cursor Color 2 : Red */ *(dac4xx+Index) = 0x10; *(dac4xx+Data) = 0xff; *(dac4xx+Index) = 0x11; *(dac4xx+Data) = 0x00; *(dac4xx+Index) = 0x12; *(dac4xx+Data) = 0x00; /* * Load, locate and enable the * 64x64 cursor in X11 mode. */ dac4xxload(scr, &arrow); dac4xxmove(scr, ZP); } static void mga4xxblank(VGAscr* scr, int blank) { char * cp; uchar * mga; uchar seq1, crtcext1; /* blank = 0 -> turn screen on */ /* blank = 1 -> turn screen off */ if(scr->io == 0) return; mga = KADDR(scr->io); if (blank == 0) { seq1 = 0x00; crtcext1 = 0x00; } else { seq1 = 0x20; crtcext1 = 0x10; /* Default value ... : standby */ cp = getconf("*dpms"); if (cp) { if (cistrcmp(cp, "standby") == 0) { crtcext1 = 0x10; } else if (cistrcmp(cp, "suspend") == 0) { crtcext1 = 0x20; } else if (cistrcmp(cp, "off") == 0) { crtcext1 = 0x30; } } } *(mga + 0x1fc4) = 1; seq1 |= *(mga + 0x1fc5) & ~0x20; *(mga + 0x1fc5) = seq1; *(mga + 0x1fde) = 1; crtcext1 |= *(mga + 0x1fdf) & ~0x30; *(mga + 0x1fdf) = crtcext1; } static void mgawrite32(uchar * mga, ulong reg, ulong val) { ulong * l; l = (ulong *)(&mga[reg]); l[0] = val; } static ulong mgaread32(uchar * mga, ulong reg) { return *((ulong *)(&mga[reg])); } static int mga4xxfill(VGAscr* scr, Rectangle r, ulong color) { uchar * mga; /* Constant Shaded Trapezoids / Rectangle Fills */ if(scr->io == 0) return 0; mga = KADDR(scr->io); mgawrite32(mga, DWGCTL, 0); mgawrite32(mga, FCOL, color); mgawrite32(mga, FXRIGHT, r.max.x); mgawrite32(mga, FXLEFT, r.min.x); mgawrite32(mga, YDST, r.min.y); mgawrite32(mga, YLEN, Dy(r)); mgawrite32(mga, DWGCTL + GO, FILL_OPERAND); while (mgaread32(mga, STATUS) & 0x00010000) ; return 1; } #define mga_fifo(n) do {} while ((mgaread32(mga, FIFOSTATUS) & 0xFF) < (n)) static int mga4xxscroll(VGAscr* scr, Rectangle r_dst, Rectangle r_src) { uchar * mga; ulong pitch, y; ulong width, height, start, end, scandir; int ydir; /* Two-operand Bitblts */ if(scr->io == 0) return 0; mga = KADDR(scr->io); pitch = Dx(scr->gscreen->r); mgawrite32(mga, DWGCTL, 0); scandir = 0; height = abs(Dy(r_src)); width = abs(Dx(r_src)); assert(height == abs(Dy(r_dst))); assert(width == abs(Dx(r_dst))); if ((r_src.min.y == r_dst.min.y) && (r_src.min.x == r_dst.min.x)) { if (0) print("move x,y to x,y !\n"); return 1; } ydir = 1; if (r_dst.min.y > r_src.min.y) { if (0) print("ydir = -1\n"); ydir = -1; scandir |= 4; // Blit UP } if (r_dst.min.x > r_src.min.x) { if (0) print("xdir = -1\n"); scandir |= 1; // Blit Left } mga_fifo(4); if (scandir) { mgawrite32(mga, DWGCTL, DWG_BITBLT | DWG_SHIFTZERO | DWG_SGNZERO | DWG_BFCOL | DWG_REPLACE); mgawrite32(mga, SGN, scandir); } else { mgawrite32(mga, DWGCTL, DWG_BITBLT | DWG_SHIFTZERO | DWG_BFCOL | DWG_REPLACE); } mgawrite32(mga, AR5, ydir * pitch); width--; start = end = r_src.min.x + (r_src.min.y * pitch); if ((scandir & 1) == 1) { start += width; } else { end += width; } y = r_dst.min.y; if ((scandir & 4) == 4) { start += (height - 1) * pitch; end += (height - 1) * pitch; y += (height - 1); } mga_fifo(4); mgawrite32(mga, AR0, end); mgawrite32(mga, AR3, start); mgawrite32(mga, FXBNDRY, ((r_dst.min.x+width)<<16) | r_dst.min.x); mgawrite32(mga, YDSTLEN + GO, (y << 16) | height); if (1) { while (mgaread32(mga, STATUS) & 0x00010000) ; } return 1; } static void mga4xxdrawinit(VGAscr* scr) { uchar * mga; Pcidev* p; p = pcimatch(nil, MATROX, MGA4xx); if (p == nil) return ; if(scr->io == 0) return; mga = KADDR(scr->io); mgawrite32(mga, SRCORG, 0); mgawrite32(mga, DSTORG, 0); mgawrite32(mga, ZORG, 0); mgawrite32(mga, PLNWRT, ~0); mgawrite32(mga, FCOL, 0xffff0000); mgawrite32(mga, CXBNDRY, 0xFFFF0000); mgawrite32(mga, YTOP, 0); mgawrite32(mga, YBOT, 0x01FFFFFF); mgawrite32(mga, PITCH, Dx(scr->gscreen->r) & ((1 << 13) - 1)); switch(scr->gscreen->depth) { case 8: mgawrite32(mga, MACCESS, 0); break; case 32: mgawrite32(mga, MACCESS, 2); break; default: return; /* depth not supported ! */ } scr->fill = mga4xxfill; scr->scroll = mga4xxscroll; scr->blank = mga4xxblank; } VGAdev vgamga4xxdev = { "mga4xx", mga4xxenable, /* enable */ 0, /* disable */ 0, /* page */ mga4xxlinear, /* linear */ mga4xxdrawinit, }; VGAcur vgamga4xxcur = { "mga4xxhwgc", dac4xxenable, dac4xxdisable, dac4xxload, dac4xxmove, };