#include #include #include #include #include "dat.h" #include "fns.h" static uchar vesabios[512] = { 0x55, 0xaa, 0x01, 0xcb, 0x60, 0x1e, 0x06, 0x8c, 0xd0, 0xba, 0xe0, 0xfe, 0xef, 0x89, 0xe0, 0xba, 0xe1, 0xfe, 0xef, 0xba, 0xe2, 0xfe, 0xed, 0x85, 0xc0, 0x7c, 0x28, 0x50, 0x25, 0x00, 0xf0, 0x8e, 0xc0, 0xba, 0xe3, 0xfe, 0xed, 0x89, 0xc6, 0xc3, 0x26, 0x8b, 0x04, 0xba, 0xe4, 0xfe, 0xef, 0xeb, 0xe2, 0xba, 0xe4, 0xfe, 0xed, 0x26, 0x89, 0x04, 0xeb, 0xd9, 0xba, 0xe4, 0xfe, 0xed, 0x26, 0x88, 0x04, 0xeb, 0xd0, 0x58, 0x58, 0x61, 0xcf, }; enum { READCMD = 0x28, WRITEWCMD = 0x31, WRITEBCMD = 0x3a, }; typedef struct VESAIO VESAIO; struct VESAIO { u8int port; u16int val; }; Channel *vesawchan, *vesarchan; typedef struct Ureg16 Ureg16; struct Ureg16 { u16int ax, bx, cx, dx; u16int si, di, bp; u16int ds, es; }; #define ESDI(u) ((u).di + ((u).es<<4)) typedef struct Vesa Vesa; struct Vesa { u32int romptr; u32int oemstring, oemvendor, oemproduct, oemproductrev; u32int modetab; u8int pal8; } vesa; #define FARPTR(x) (((x)&0xf0000)<<12|(u16int)(x)) extern VgaMode *modes, **modeslast, *curmode, *nextmode, textmode; extern int curhbytes, nexthbytes; extern uintptr fbaddr, fbsz; extern int maxw, maxh; enum { CMAP4 = CHAN1(CMap, 4) }; static VgaMode * findmode(u16int m) { VgaMode *p; for(p = modes; p != nil; p = p->next) if(p->no == m) return p; return nil; } static int vesagetsp(void) { VESAIO io; u32int rc; loop: while(recv(vesarchan, &io), io.port != 0) sendul(vesawchan, -1); rc = io.val << 4; sendul(vesawchan, -1); recv(vesarchan, &io); sendul(vesawchan, -1); if(io.port != 1) goto loop; return rc + io.val; } static int vesawrite(int addr, u32int val, int sz) { VESAIO io; assert(sz == 1 || sz == 2 || sz == 4); recv(vesarchan, &io); if(io.port != 0x12){ no: sendul(vesawchan, -1); return -1; } sendul(vesawchan, (sz > 1 ? WRITEWCMD : WRITEBCMD) | addr >> 4 & 0xf000); recv(vesarchan, &io); if(io.port != 0x13) goto no; sendul(vesawchan, addr); recv(vesarchan, &io); if(io.port != 0x14) goto no; sendul(vesawchan, val); if(sz == 4) return vesawrite(addr + 2, val >> 16, 2); return 0; } static int vesaread(int addr) { VESAIO io; recv(vesarchan, &io); if(io.port != 0x12){ no: sendul(vesawchan, -1); return -1; } sendul(vesawchan, READCMD); recv(vesarchan, &io); if(io.port != 0x13) goto no; sendul(vesawchan, addr); recv(vesarchan, &io); if(io.port != 0x4) goto no; sendul(vesawchan, -1); return io.val; } static int vesaregs(u32int sp, Ureg16 *ur) { int rc; #define R(n, a) rc = vesaread(sp + n); if(rc < 0) return -1; ur->a = rc memset(ur, 0, sizeof(*ur)); R(0, es); R(2, ds); R(4, di); R(6, si); R(8, bp); R(12, bx); R(14, dx); R(16, cx); R(18, ax); return 0; #undef R } static int vesasetregs(u32int sp, Ureg16 *ur) { #define R(n, a) if(vesawrite(sp + n, ur->a, 2) < 0) return -1; R(0, es); R(2, ds); R(4, di); R(6, si); R(8, bp); R(12, bx); R(14, dx); R(16, cx); R(18, ax); return 0; #undef R } #define vesasetax(sp, val) vesawrite(sp+18, val, 2) #define vesasetbx(sp, val) vesawrite(sp+12, val, 2) static int vesapack(int addr, char *fmt, ...) { va_list va; static u8int checksum; int v; char *p; int numb; if(addr < 0) return -1; numb = 0; va_start(va, fmt); for(; *fmt != 0; fmt++) switch(*fmt){ case ' ': break; case 'b': v = va_arg(va, int); if(vesawrite(addr, v, 1) < 0) return -1; addr += 1; checksum += v; break; case 'w': v = va_arg(va, int); if(vesawrite(addr, v, 2) < 0) return -1; addr += 2; checksum += v + (v >> 8); break; case 'd': v = va_arg(va, int); if(vesawrite(addr, v, 4) < 0) return -1; addr += 4; checksum += v + (v >> 8) + (v >> 16) + (v >> 24); break; case 's': p = va_arg(va, char *); for(; *p != 0; p++, addr++){ if(vesawrite(addr, *p, 1) < 0) return -1; checksum += *p; } break; case 'S': p = va_arg(va, char *); v = va_arg(va, int); while(v-- > 0){ if(vesawrite(addr++, *p, 1) < 0) return -1; checksum += *p++; } break; case '0': case '1': case '2': case '3': case '4': case '5': case '6': case '7': case '8': case '9': numb = strtol(fmt, &fmt, 10); fmt--; break; case 'f': for(; numb >= 2; numb -= 2, addr += 2) if(vesawrite(addr, 0, 2) < 0) return -1; if(numb == 1){ if(vesawrite(addr++, 0, 1) < 0) return -1; numb = 0; } break; case 'c': if(vesawrite(addr, -checksum, 1) < 0) return -1; addr += 1; break; case 'C': checksum = 0; break; default: vmerror("vesapack: unknown char %c", *fmt); return -1; } va_end(va); return addr; } static int vesarompack(char *fmt, ...) { va_list va; uchar *v, *v0; int rc, x; void *s; v0 = gptr(vesa.romptr, 0x8000); v = v0; assert(v != nil); va_start(va, fmt); for(; *fmt != 0; fmt++) switch(*fmt){ case 'b': *(u8int*)v = va_arg(va, int); v++; break; case 'w': *(u16int*)v = va_arg(va, int); v += 2; break; case 'd': *(u32int*)v = va_arg(va, int); v += 4; break; case 'a': v = (uchar*)strecpy((char*)v, (char*)v + 0x8000, va_arg(va, char*)); *v++ = 0; break; case 'S': s = va_arg(va, void *); x = va_arg(va, int); memcpy(v, s, x); v += x; break; default: sysfatal("vesarompack: unknown char %c", *fmt); } va_end(va); rc = vesa.romptr; vesa.romptr += v - v0; return rc; } static int vesamodeget(int addr, u16int mode, u16int *retv) { VgaMode *p; u8int model; u8int nred, pred, ngreen, pgreen, nblue, pblue, nx, px; int i, pos, s; p = findmode(mode); if(p == nil){ vmerror("vesa: Return VBE Mode Information: unknown mode %#x", mode); *retv = 0x014F; return 0; } *retv = 0x004F; model = 6; nred = pred = ngreen = pgreen = 0; nblue = pblue = nx = px = 0; pos = 0; for(i = 0; i < 4; i++){ s = p->chan >> 8 * i & 15; if(s == 0) continue; switch(p->chan >> 8 * i + 4 & 15){ case CRed: nred = s; pred = pos; break; case CGreen: ngreen = s; pgreen = pos; break; case CBlue: nblue = s; pblue = pos; break; case CAlpha: case CIgnore: nx = s; px = pos; break; case CMap: model = 4; break; } pos += s; } return vesapack(addr, "wbbwwwwdw wwbbbbbbbbb bbbbbbbbb ddw wbbbbb bbbbbd 189f", 1<<0|1<<1|1<<3|1<<4|1<<5|1<<6|1<<7, /* attributes: color graphics, vga incompatible, linear framebuffer */ 0, 0, 0, 0, 0, 0, 0, p->hbytes, /* windowing crap */ p->w, p->h, 0, 0, /* character size */ 1, chantodepth(p->chan), 1, /* 1 bank, 1 plane, N bpp */ model, /* memory model */ 0, 0, 1, /* no banking/paging */ nred, pred, ngreen, pgreen, nblue, pblue, nx, px, /* masks */ 0, /* no ramp, reserved bits are reserved */ fbaddr, 0, 0, /* reserved */ p->hbytes, 0, 0, nred, pred, ngreen, pgreen, nblue, pblue, nx, px, /* masks */ p->w * p->h * 60 * 2 /* max pixelclock */); } static int vesamodeset(u16int mode, u16int *retv) { VgaMode *p; mode &= 0x1ff; if(mode == 3){ *retv = 0x04F; nextmode = &textmode; return 0; } p = findmode(mode); if(p == nil){ vmerror("vesa: Set VBE Mode: unknown mode %#x", mode); *retv = 0x14F; return 0; } *retv = 0x04F; nextmode = p; nexthbytes = p->hbytes; vesa.pal8 = 0; return 0; } static int vesalinelen(Ureg16 *ur) { int d; int nhb, x; d = chantodepth(nextmode->chan); if(nextmode == &textmode || d == 0) goto fail; switch(ur->bx & 0xff){ case 0: nhb = d * ur->cx / 8; set: if((d & 7) != 0){ vmerror("vesa: set logical length unsupported on bitdepth < 8"); fail: ur->ax = 0x014F; return 0; } if(nhb * nextmode->h > fbsz){ ur->ax = 0x024F; return 0; } nexthbytes = nhb; ur->ax = 0x4F; ur->bx = nhb; ur->cx = nhb * 8 / d; ur->dx = fbsz / nhb; break; case 1: ur->ax = 0x4F; ur->bx = nexthbytes; ur->cx = nexthbytes * 8 / d; ur->dx = fbsz / nexthbytes; break; case 2: nhb = ur->cx; goto set; case 3: x = fbsz / nextmode->h; ur->ax = 0x4F; ur->bx = x; ur->cx = x * 8 / d; ur->dx = nextmode->h; break; default: vmerror("vesa: unsupported subfunction %#x of SetGetLogicalLineLength", ur->bx & 0xff); } return 0; } static int vesapalformat(Ureg16 *ur) { switch(ur->bx & 0xff){ case 0: vesa.pal8 = (ur->bx >> 8) >= 8; case 1: ur->ax = 0x4F; ur->bx = vesa.pal8 ? 8 : 6; break; default: vmerror("vesa: unsupported subfunction %#x of SetGetDACPaletteFormat", ur->bx & 0xff); } return 0; } static int vesapal(Ureg16 *ur) { int i; int addr; u32int c; int r, g, b; switch(ur->bx & 0xff){ case 0: case 0x80: if(ur->dx >= 256 || ur->cx > 256){ ur->ax = 0x014F; return 0; } ur->ax = 0x4F; addr = ESDI(*ur); for(i = ur->dx; i < ur->dx + ur->cx; i++){ b = vesaread(addr); if(b < 0) return -1; g = b >> 8; b = b & 0xff; r = vesaread(addr + 2); if(r < 0) return -1; r &= 0xff; if(!vesa.pal8){ r <<= 2; g <<= 2; b <<= 2; } vgasetpal(i, r << 24 | g << 16 | b << 8 | 0xff); addr += 4; } break; case 0x1: if(ur->dx >= 256 || ur->cx > 256){ ur->ax = 0x014F; return 0; } ur->ax = 0x4F; addr = ESDI(*ur); for(i = ur->dx; i < ur->dx + ur->cx; i++){ c = vgagetpal(i); r = c >> 24; g = c >> 16; b = c >> 8; if(!vesa.pal8){ r >>= 2; g >>= 2; b >>= 2; } addr = vesapack(addr, "bbbb", b, g, r, 0); } return addr >= 0 ? 0 : -1; default: vmerror("vesa: unsupported subfunction %#x of SetGetPaletteData", ur->bx & 0xff); } return 0; } static void stdtiming(u8int *arr) { VgaMode *m; u8int s1, s2; int i; memset(arr, 1, 16); for(m = modes; m != nil; m = m->next){ if(m->w < 256 || m->w > 2288 || m->w > maxw || m->h > maxh) continue; if((m->w & 7) != 0) continue; if(m->w == 640 && m->h == 480) continue; if(m->w == 800 && m->h == 600) continue; if(m->w == 1024 && m->h == 768) continue; if(m->w == 1280 && m->h == 1024) continue; if(m->w * 10 == m->w * 16) s2 = 0x00; else if(m->w * 3 == m->h * 4) s2 = 0x40; else if(m->w * 4 == m->h * 5) s2 = 0x80; else if(m->w * 9 == m->w * 16) s2 = 0xc0; else continue; s1 = m->w / 8 - 31; for(i = 0; i < 16; i += 2){ if(arr[i] == s1 && arr[i+1] == s2) goto skip; if(arr[i] == 1 && arr[i+1] == 1) break; } if(i == 16) skip: continue; arr[i] = s1; arr[i+1] = s2; } } static int detailtiming(int addr, VgaMode **m) { u32int hv, hfp, hsp, hbp, hmm; u32int vv, vfp, vsp, vbp, vmm; u32int freq; again: if(*m == nil) return vesapack(addr, "d14f", 0x10000000); /* when in doubt, make shit up */ hv = (*m)->w; hfp = hv / 40; hsp = hv * 3 / 20; hbp = hfp * 4 + hsp; vv = (*m)->h; vfp = (vv + 24) / 48; vsp = (vv + 120) / 240; vbp = vfp * 3 + vsp; freq = (hv + hfp + hsp + hbp) * (vv + vfp + vsp + vbp) * 60; hmm = hv * 254 / 960; /* assume 96 dpi */ vmm = vv * 254 / 960; *m = (*m)->next; if(hv > maxw || vv > maxh || hv > 0xfff || hfp > 0x3ff || hsp > 0x3ff || vfp > 63 || vsp > 63) goto again; return vesapack(addr, "w bbbbbbbbbb bbbbb b", freq / 10000, hv, hbp, hv >> 4 & 0xf0 | hbp >> 8 & 0xf, vv, vbp, vv >> 4 & 0xf0 | vbp >> 8 & 0xf, hfp, hsp, vfp << 4 & 0xf0 | vsp & 0xf, hfp >> 2 & 0xc0 | hsp >> 4 & 0x30 | vfp >> 2 & 0x0c | vsp >> 4 & 0x03, hmm, vmm, hmm >> 4 & 0xf0 | vmm >> 8 & 0xf, 0, 0, 0x1f); } static int vesaddc(Ureg16 *ur) { int addr; u32int tim; u8int std[16]; VgaMode *m; switch(ur->bx & 0xff){ case 0: ur->ax = 0x004F; ur->bx = 3; break; case 1: addr = ESDI(*ur); stdtiming(std); switch(ur->dx){ case 0: ur->ax = 0x004F; tim = 0; if(maxw >= 640 && maxh >= 480) tim |= 0x3c; if(maxw >= 800 && maxh >= 600) tim |= 0xc003; if(maxw >= 1024 && maxh >= 768) tim |= 0xe00; if(maxw >= 1280 && maxh >= 1024) tim |= 0x100; addr = vesapack(addr, "Cdd bbbbdbb bb bbbbb bbbbb bbbbb wb S", 0xFFFFFF00, 0x00FFFFFF, 0x0c, 0x34, 0xa7, 0xac, /* manufacturer & product id */ 1701, /* serial no */ 0xff, 27, /* model year 2017 */ 1, 4, /* edid version */ 0xa1, /* DVI input */ maxw >= maxh ? maxw * 100 / maxh - 99 : 0, /* landscape aspect ratio */ maxw < maxh ? maxh * 100 / maxw - 99 : 0, /* portrait aspect ratio */ 0x78, /* gamma=2.2 */ 7, /* srgb & have preferred timing mode */ 0, 0, 0, 0, 0, /* chromaticity coordinates */ 0, 0, 0, 0, 0, tim, tim >> 16, std, 16); m = modes; addr = detailtiming(addr, &m); addr = detailtiming(addr, &m); addr = detailtiming(addr, &m); addr = vesapack(addr, "3fbb bbbb bbbb bbbbb", 0xfd, 0xa, 1, 0xff, 1, 0xff, 0xff, 0x04, 0x11, maxw >> 11 & 3, maxw >> 3, 0xf8, 0x18, 0, 60); addr = vesapack(addr, "bc", 0); if(addr < 0) return -1; break; default: ur->ax = 0x014F; } break; default: vmerror("vesa: unsupported subfunction %#x of VBE/DDC", ur->bx & 0xff); } return 0; } static void vesathread(void *) { u32int sp; Ureg16 ur; for(;;){ sp = vesagetsp(); // vmdebug("SP = %.8ux", sp); if(vesaregs(sp, &ur) < 0) continue; // vmdebug("AX = %.4x BX=%.4x CX=%.4x DX=%.4x", ur.ax, ur.bx, ur.cx, ur.dx); // vmdebug("SI = %.4x DI=%.4x BP=%.4x", ur.si, ur.di, ur.bp); // vmdebug("DS = %.4x ES=%.4x", ur.ds, ur.es); switch(ur.ax){ case 0x4f00: if(vesapack(ESDI(ur), "swdddwwddd", "VESA", /* VbeSignature */ 0x0300, /* VbeVersion */ FARPTR(vesa.oemstring), /* OemStringPtr */ 1, /* Capabilities (support 8 bit colors) */ FARPTR(vesa.modetab), /* VideoModePtr */ fbsz >> 16, /* TotalMemory */ 0x100 /* OemSoftwareRev */, FARPTR(vesa.oemvendor), /* OemVendorNamePtr */ FARPTR(vesa.oemproduct), /* OemProductNamePtr */ FARPTR(vesa.oemproductrev) /* OemProductRevPtr */) < 0) continue; if(vesasetax(sp, 0x004F) < 0) continue; break; case 0x4f01: if(vesamodeget(ESDI(ur), ur.cx, &ur.ax) < 0) continue; if(vesasetax(sp, ur.ax) < 0) continue; break; case 0x4f02: if(vesamodeset(ur.bx, &ur.ax) < 0 || vesasetax(sp, ur.ax) < 0) continue; break; case 0x4f03: if(vesasetax(sp, 0x004F) < 0) continue; if(vesasetbx(sp, nextmode->no | 0x4000) < 0) continue; break; case 0x4f06: if(vesalinelen(&ur) < 0 || vesasetregs(sp, &ur) < 0) continue; break; case 0x4f08: if(vesapalformat(&ur) < 0 || vesasetregs(sp, &ur) < 0) continue; break; case 0x4f09: if(vesapal(&ur) < 0 || vesasetregs(sp, &ur) < 0) continue; break; case 0x4f15: if(vesaddc(&ur) < 0 || vesasetregs(sp, &ur) < 0) continue; break; default: vmerror("vesa: unsupported function %#x", ur.ax); } } } static void addmode(int no, int x, int y, u32int chan) { VgaMode *vm; vm = emalloc(sizeof(VgaMode)); vm->no = no; vm->w = x; vm->h = y; vm->chan = chan; vm->hbytes = chantodepth(chan) * vm->w + 7 >> 3; vm->sz = vm->hbytes * y; *modeslast = vm; modeslast = &vm->next; } void vesainit(void) { void *v; int i, c; int mno; VgaMode *p; v = gptr(0xc0000, sizeof(vesabios)); if(v == nil) sysfatal("vesainit: gptr failed"); for(i = 0, c = 0; i < sizeof(vesabios) - 1; i++) c += vesabios[i]; vesabios[sizeof(vesabios) - 1] = -c; vesa.romptr = 0xc0000; vesarompack("S", vesabios, sizeof(vesabios)); v = gptr(0, 1024); if(v == nil) sysfatal("vesainit: gptr failed"); PUT32(v, 0x40, 0xc0000004); vesa.oemstring = vesarompack("a", "9front vmx(1)"); vesa.oemvendor = vesarompack("a", "9front"); vesa.oemproduct = vesarompack("a", "cat graphics adapter"); vesa.oemproductrev = vesarompack("a", "∞"); vesa.modetab = vesa.romptr; mno = 0x120; for(p = modes; p != nil; p = p->next){ p->no = mno++; vesarompack("w", p->no); } vesarompack("w", 0xffff); addmode(0x100, 640, 400, CMAP8); addmode(0x101, 640, 480, CMAP8); addmode(0x102, 800, 600, CMAP4); addmode(0x6A, 800, 600, CMAP4); addmode(0x103, 800, 600, CMAP8); addmode(0x104, 1024, 768, CMAP4); addmode(0x105, 1024, 768, CMAP8); addmode(0x106, 1280, 1024, CMAP4); addmode(0x107, 1280, 1024, CMAP8); addmode(0x10D, 320, 200, RGB15); addmode(0x10E, 320, 200, RGB16); addmode(0x10F, 320, 200, RGB24); addmode(0x110, 640, 480, RGB15); addmode(0x111, 640, 480, RGB16); addmode(0x112, 640, 480, RGB24); addmode(0x113, 800, 600, RGB15); addmode(0x114, 800, 600, RGB16); addmode(0x115, 800, 600, RGB24); addmode(0x116, 1024, 768, RGB15); addmode(0x117, 1024, 768, RGB16); addmode(0x118, 1024, 768, RGB24); addmode(0x119, 1280, 1024, RGB15); addmode(0x11A, 1280, 1024, RGB16); addmode(0x11B, 1280, 1024, RGB24); vesarchan = chancreate(sizeof(VESAIO), 0); vesawchan = chancreate(sizeof(ulong), 0); threadcreate(vesathread, nil, 8192); } u32int vesaio(int isin, u16int port, u32int val, int sz, void *) { VESAIO io; if(sz != 2) return iowhine(isin, port, val, sz, nil); io.port = isin << 4 | port & 0xf; io.val = val; send(vesarchan, &io); return recvul(vesawchan); }