ref: ad5a80bfb081dc954be03836cc65090e0f6c7e4f
dir: /os/pc/vganeomagic.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" typedef struct CursorNM CursorNM; struct CursorNM { int enable; int x; int y; int colour1; int colour2; int addr; }; static ulong neomagiclinear(VGAscr* scr, int* size, int* align) { ulong aperture, oaperture; int oapsize, wasupamem; Pcidev *p; oaperture = scr->aperture; oapsize = scr->apsize; wasupamem = scr->isupamem; aperture = 0; if(p = pcimatch(nil, 0x10C8, 0)){ switch(p->did){ case 0x0004: /* MagicGraph 128XD */ case 0x0005: /* MagicMedia 256AV */ case 0x0006: /* MagicMedia 256ZX */ aperture = p->mem[0].bar & ~0x0F; *size = p->mem[0].size; break; default: break; } } 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 neomagicenable(VGAscr* scr) { Pcidev *p; int align, curoff, size, vmsize; ulong aperture; /* * Only once, can't be disabled for now. * scr->io holds the physical address of the cursor registers * in the MMIO space. This may need to change for older chips * which have the MMIO space offset in the framebuffer region. */ if(scr->io) return; if(p = pcimatch(nil, 0x10C8, 0)){ switch(p->did){ case 0x0004: /* MagicGraph 128XD */ curoff = 0x100; vmsize = 2048*1024; break; case 0x0005: /* MagicMedia 256AV */ curoff = 0x1000; vmsize = 2560*1024; break; case 0x0006: /* MagicMedia 256ZX */ curoff = 0x1000; vmsize = 4096*1024; break; default: return; } } else return; scr->io = upamalloc(p->mem[1].bar & ~0x0F, p->mem[1].size, 0); if(scr->io == 0) return; addvgaseg("neomagicmmio", scr->io, p->mem[1].size); scr->mmio = KADDR(scr->io); /* * Find a place for the cursor data in display memory. * 2 cursor images might be needed, 1KB each so use the * last 2KB of the framebuffer. */ scr->storage = vmsize-2*1024; scr->io += curoff; size = p->mem[0].size; align = 0; aperture = neomagiclinear(scr, &size, &align); if(aperture) { scr->aperture = aperture; scr->apsize = size; addvgaseg("neomagicscreen", aperture, size); } } static void neomagiccurdisable(VGAscr* scr) { CursorNM *cursornm; if(scr->io == 0) return; cursornm = KADDR(scr->io); cursornm->enable = 0; } static void neomagicinitcursor(VGAscr* scr, int xo, int yo, int index) { uchar *p; uint p0, p1; int x, y; p = KADDR(scr->aperture); p += scr->storage + index*1024; for(y = yo; y < 16; y++){ p0 = scr->set[2*y]; p1 = scr->set[2*y+1]; if(xo){ p0 = (p0<<xo)|(p1>>(8-xo)); p1 <<= xo; } *p++ = p0; *p++ = p1; for(x = 16; x < 64; x += 8) *p++ = 0x00; p0 = scr->clr[2*y]|scr->set[2*y]; p1 = scr->clr[2*y+1]|scr->set[2*y+1]; if(xo){ p0 = (p0<<xo)|(p1>>(8-xo)); p1 <<= xo; } *p++ = p0; *p++ = p1; for(x = 16; x < 64; x += 8) *p++ = 0x00; } while(y < 64+yo){ for(x = 0; x < 64; x += 8){ *p++ = 0x00; *p++ = 0x00; } y++; } } static void neomagiccurload(VGAscr* scr, Cursor* curs) { CursorNM *cursornm; if(scr->io == 0) return; cursornm = KADDR(scr->io); cursornm->enable = 0; memmove(&scr->Cursor, curs, sizeof(Cursor)); neomagicinitcursor(scr, 0, 0, 0); cursornm->enable = 1; } static int neomagiccurmove(VGAscr* scr, Point p) { CursorNM *cursornm; int addr, index, x, xo, y, yo; if(scr->io == 0) return 1; cursornm = KADDR(scr->io); index = 0; if((x = p.x+scr->offset.x) < 0){ xo = -x; x = 0; } else xo = 0; if((y = p.y+scr->offset.y) < 0){ yo = -y; y = 0; } else yo = 0; if(xo || yo){ index = 1; neomagicinitcursor(scr, xo, yo, index); } addr = ((scr->storage+(1024*index))>>10) & 0xFFF; addr = ((addr & 0x00F)<<8)|((addr>>4) & 0xFF); if(cursornm->addr != addr) cursornm->addr = addr; cursornm->x = x; cursornm->y = y; return 0; } static void neomagiccurenable(VGAscr* scr) { CursorNM *cursornm; neomagicenable(scr); if(scr->io == 0) return; cursornm = KADDR(scr->io); cursornm->enable = 0; /* * Cursor colours. */ cursornm->colour1 = (Pblack<<16)|(Pblack<<8)|Pblack; cursornm->colour2 = (Pwhite<<16)|(Pwhite<<8)|Pwhite; /* * Load, locate and enable the 64x64 cursor. */ neomagiccurload(scr, &arrow); neomagiccurmove(scr, ZP); cursornm->enable = 1; } static int neomagicbltflags; /* registers */ enum { BltStat = 0, BltCntl = 1, XPColor = 2, FGColor = 3, BGColor = 4, Pitch = 5, ClipLT = 6, ClipRB = 7, SrcBitOff = 8, SrcStartOff = 9, DstStartOff = 11, XYExt = 12, PageCntl = 20, PageBase, PostBase, PostPtr, DataPtr, }; /* flags */ enum { NEO_BS0_BLT_BUSY = 0x00000001, NEO_BS0_FIFO_AVAIL = 0x00000002, NEO_BS0_FIFO_PEND = 0x00000004, NEO_BC0_DST_Y_DEC = 0x00000001, NEO_BC0_X_DEC = 0x00000002, NEO_BC0_SRC_TRANS = 0x00000004, NEO_BC0_SRC_IS_FG = 0x00000008, NEO_BC0_SRC_Y_DEC = 0x00000010, NEO_BC0_FILL_PAT = 0x00000020, NEO_BC0_SRC_MONO = 0x00000040, NEO_BC0_SYS_TO_VID = 0x00000080, NEO_BC1_DEPTH8 = 0x00000100, NEO_BC1_DEPTH16 = 0x00000200, NEO_BC1_DEPTH24 = 0x00000300, NEO_BC1_X_320 = 0x00000400, NEO_BC1_X_640 = 0x00000800, NEO_BC1_X_800 = 0x00000c00, NEO_BC1_X_1024 = 0x00001000, NEO_BC1_X_1152 = 0x00001400, NEO_BC1_X_1280 = 0x00001800, NEO_BC1_X_1600 = 0x00001c00, NEO_BC1_DST_TRANS = 0x00002000, NEO_BC1_MSTR_BLT = 0x00004000, NEO_BC1_FILTER_Z = 0x00008000, NEO_BC2_WR_TR_DST = 0x00800000, NEO_BC3_SRC_XY_ADDR = 0x01000000, NEO_BC3_DST_XY_ADDR = 0x02000000, NEO_BC3_CLIP_ON = 0x04000000, NEO_BC3_FIFO_EN = 0x08000000, NEO_BC3_BLT_ON_ADDR = 0x10000000, NEO_BC3_SKIP_MAPPING = 0x80000000, NEO_MODE1_DEPTH8 = 0x0100, NEO_MODE1_DEPTH16 = 0x0200, NEO_MODE1_DEPTH24 = 0x0300, NEO_MODE1_X_320 = 0x0400, NEO_MODE1_X_640 = 0x0800, NEO_MODE1_X_800 = 0x0c00, NEO_MODE1_X_1024 = 0x1000, NEO_MODE1_X_1152 = 0x1400, NEO_MODE1_X_1280 = 0x1800, NEO_MODE1_X_1600 = 0x1c00, NEO_MODE1_BLT_ON_ADDR = 0x2000, }; /* Raster Operations */ enum { GXclear = 0x000000, /* 0x0000 */ GXand = 0x080000, /* 0x1000 */ GXandReverse = 0x040000, /* 0x0100 */ GXcopy = 0x0c0000, /* 0x1100 */ GXandInvert = 0x020000, /* 0x0010 */ GXnoop = 0x0a0000, /* 0x1010 */ GXxor = 0x060000, /* 0x0110 */ GXor = 0x0e0000, /* 0x1110 */ GXnor = 0x010000, /* 0x0001 */ GXequiv = 0x090000, /* 0x1001 */ GXinvert = 0x050000, /* 0x0101 */ GXorReverse = 0x0d0000, /* 0x1101 */ GXcopyInvert = 0x030000, /* 0x0011 */ GXorInverted = 0x0b0000, /* 0x1011 */ GXnand = 0x070000, /* 0x0111 */ GXset = 0x0f0000, /* 0x1111 */ }; static void waitforidle(VGAscr *scr) { ulong *mmio; long x; mmio = scr->mmio; x = 0; while((mmio[BltStat] & NEO_BS0_BLT_BUSY) && x++ < 1000000) ; //if(x >= 1000000) // iprint("idle stat %lud scrmmio %.8lux scr %p pc %luX\n", mmio[BltStat], scr->mmio, scr, getcallerpc(&scr)); } static void waitforfifo(VGAscr *scr, int entries) { ulong *mmio; long x; mmio = scr->mmio; x = 0; while(((mmio[BltStat]>>8) < entries) && x++ < 1000000) ; //if(x >= 1000000) // iprint("fifo stat %d scrmmio %.8lux scr %p pc %luX\n", mmio[BltStat]>>8, scr->mmio, scr, getcallerpc(&scr)); /* DirectFB says the above doesn't work. if so... */ /* waitforidle(scr); */ } static int neomagichwfill(VGAscr *scr, Rectangle r, ulong sval) { ulong *mmio; mmio = scr->mmio; waitforfifo(scr, 1); mmio[FGColor] = sval; waitforfifo(scr, 3); mmio[BltCntl] = neomagicbltflags | NEO_BC3_FIFO_EN | NEO_BC0_SRC_IS_FG | NEO_BC3_SKIP_MAPPING | GXcopy; mmio[DstStartOff] = scr->aperture + r.min.y*scr->gscreen->width*BY2WD + r.min.x*scr->gscreen->depth/BI2BY; mmio[XYExt] = (Dy(r) << 16) | (Dx(r) & 0xffff); waitforidle(scr); return 1; } static int neomagichwscroll(VGAscr *scr, Rectangle r, Rectangle sr) { ulong *mmio; int pitch, pixel; mmio = scr->mmio; pitch = scr->gscreen->width*BY2WD; pixel = scr->gscreen->depth/BI2BY; waitforfifo(scr, 4); if (r.min.y < sr.min.y || (r.min.y == sr.min.y && r.min.x < sr.min.x)) { /* start from upper-left */ mmio[BltCntl] = neomagicbltflags | NEO_BC3_FIFO_EN | NEO_BC3_SKIP_MAPPING | GXcopy; mmio[SrcStartOff] = scr->aperture + sr.min.y*pitch + sr.min.x*pixel; mmio[DstStartOff] = scr->aperture + r.min.y*pitch + r.min.x*pixel; } else { /* start from lower-right */ mmio[BltCntl] = neomagicbltflags | NEO_BC0_X_DEC | NEO_BC0_DST_Y_DEC | NEO_BC0_SRC_Y_DEC | NEO_BC3_FIFO_EN | NEO_BC3_SKIP_MAPPING | GXcopy; mmio[SrcStartOff] = scr->aperture + (sr.max.y-1)*pitch + (sr.max.x-1)*pixel; mmio[DstStartOff] = scr->aperture + (r.max.y-1)*pitch + (r.max.x-1)*pixel; } mmio[XYExt] = (Dy(r) << 16) | (Dx(r) & 0xffff); waitforidle(scr); return 1; } static void neomagicdrawinit(VGAscr *scr) { ulong *mmio; uint bltmode, pitch; mmio = scr->mmio; pitch = scr->gscreen->width*BY2WD; neomagicbltflags = bltmode = 0; switch(scr->gscreen->depth) { case 8: bltmode |= NEO_MODE1_DEPTH8; neomagicbltflags |= NEO_BC1_DEPTH8; break; case 16: bltmode |= NEO_MODE1_DEPTH16; neomagicbltflags |= NEO_BC1_DEPTH16; break; case 24: /* I can't get it to work, and XFree86 doesn't either. */ default: /* give up */ return; } switch(Dx(scr->gscreen->r)) { case 320: bltmode |= NEO_MODE1_X_320; neomagicbltflags |= NEO_BC1_X_320; break; case 640: bltmode |= NEO_MODE1_X_640; neomagicbltflags |= NEO_BC1_X_640; break; case 800: bltmode |= NEO_MODE1_X_800; neomagicbltflags |= NEO_BC1_X_800; break; case 1024: bltmode |= NEO_MODE1_X_1024; neomagicbltflags |= NEO_BC1_X_1024; break; case 1152: bltmode |= NEO_MODE1_X_1152; neomagicbltflags |= NEO_BC1_X_1152; break; case 1280: bltmode |= NEO_MODE1_X_1280; neomagicbltflags |= NEO_BC1_X_1280; break; case 1600: bltmode |= NEO_MODE1_X_1600; neomagicbltflags |= NEO_BC1_X_1600; break; default: /* don't worry about it */ break; } waitforidle(scr); mmio[BltStat] = bltmode << 16; mmio[Pitch] = (pitch << 16) | (pitch & 0xffff); scr->fill = neomagichwfill; scr->scroll = neomagichwscroll; } VGAdev vganeomagicdev = { "neomagic", neomagicenable, nil, nil, neomagiclinear, neomagicdrawinit, }; VGAcur vganeomagiccur = { "neomagichwgc", neomagiccurenable, neomagiccurdisable, neomagiccurload, neomagiccurmove, };