ref: dfb4b522830edab8f3856289d326d6cf5e930644
dir: /sys/src/cmd/aux/vga/vmware.c/
#include <u.h> #include <libc.h> #include <bio.h> #include "pci.h" #include "vga.h" enum { VMWARE1 = 0x0710, /* PCI DID */ VMWARE2 = 0x0405, }; enum { Rid = 0, Renable, Rwidth, Rheight, Rmaxwidth, Rmaxheight, Rdepth, Rbpp, Rpseudocolor, Rrmask, Rgmask, Rbmask, Rbpl, Rfbstart, Rfboffset, Rfbmaxsize, Rfbsize, Rcap, Rmemstart, Rmemsize, Rconfigdone, Rsync, Rbusy, Rguestid, Rcursorid, Rcursorx, Rcursory, Rcursoron, Rhostbpp, Nreg, Rpalette = 1024, }; typedef struct Vmware Vmware; struct Vmware { ulong ra; ulong rd; ulong r[Nreg]; char chan[32]; int depth; int ver; }; static char* rname[Nreg] = { "ID", "Enable", "Width", "Height", "MaxWidth", "MaxHeight", "Depth", "Bpp", "PseudoColor", "RedMask", "GreenMask", "BlueMask", "Bpl", "FbStart", "FbOffset", "FbMaxSize", "FbSize", "Cap", "MemStart", "MemSize", "ConfigDone", "Sync", "Busy", "GuestID", "CursorID", "CursorX", "CursorY", "CursorOn", "HostBpp", }; static ulong vmrd(Vmware *vm, int i) { outportl(vm->ra, i); return inportl(vm->rd); } static void vmwr(Vmware *vm, int i, ulong v) { outportl(vm->ra, i); outportl(vm->rd, v); } static uint bits(ulong a) { int b; for(b=0; a; a>>=1) if(a&1) b++; return b; } static void snarf(Vga* vga, Ctlr* ctlr) { int extra, i; Pcidev *p; Vmware *vm; p = vga->pci; if(p == nil) error("%s: vga->pci not set\n", ctlr->name); vm = alloc(sizeof(Vmware)); switch(p->did){ case VMWARE1: /* VMware video chipset #1 */ vm->ver = 1; vm->ra = 0x4560; vm->rd = 0x4560+4; break; case VMWARE2: /* VMware video chipset #2 */ vm->ver = 2; vm->ra = p->mem[0].bar&~3; vm->rd = vm->ra+1; break; default: error("%s: unrecognized DID %.4ux\n", ctlr->name, p->did); } vgactlpci(p); for(i=0; i<Nreg; i++) vm->r[i] = vmrd(vm, i); //vmwr(vm, Renable, 0); /* * Figure out color channel. Delay errors until init, * which is after the register dump. */ vm->depth = vm->r[Rbpp]; extra = vm->r[Rbpp] - vm->r[Rdepth]; if(vm->r[Rrmask] > vm->r[Rgmask] && vm->r[Rgmask] > vm->r[Rbmask]){ if(extra) sprint(vm->chan, "x%d", extra); else vm->chan[0] = '\0'; sprint(vm->chan+strlen(vm->chan), "r%dg%db%d", bits(vm->r[Rrmask]), bits(vm->r[Rgmask]), bits(vm->r[Rbmask])); }else if(vm->r[Rbmask] > vm->r[Rgmask] && vm->r[Rgmask] > vm->r[Rrmask]){ sprint(vm->chan, "b%dg%dr%d", bits(vm->r[Rbmask]), bits(vm->r[Rgmask]), bits(vm->r[Rrmask])); if(extra) sprint(vm->chan+strlen(vm->chan), "x%d", extra); }else sprint(vm->chan, "unknown"); /* Record the frame buffer start, size */ // vga->vmb = vm->r[Rfstart]; vga->vmb = p->mem[1].bar & ~0xF; vga->vmb += vm->r[Rfboffset]; vga->apz = vm->r[Rfbmaxsize]; vga->private = vm; ctlr->flag |= Fsnarf; } static void options(Vga*, Ctlr* ctlr) { ctlr->flag |= Hlinear|Henhanced|Foptions; } static void clock(Vga*, Ctlr*) { /* BEST CLOCK ROUTINE EVER! */ } static void init(Vga* vga, Ctlr* ctlr) { Vmware *vm; vm = vga->private; vmwr(vm, Rid, (0x900000<<8)|2); if(vmrd(vm, Rid)&0xFF != 2) error("old vmware svga version %lud; need version 2\n", vmrd(vm,Rid)&0xFF); ctlr->flag |= Ulinear; if(strcmp(vm->chan, "unknown") == 0) error("couldn't translate color masks into channel\n"); /* Always use the screen depth, and clip the screen size */ vga->mode->z = vm->r[Rbpp]; if(vga->mode->x > vm->r[Rmaxwidth]) vga->mode->x = vm->r[Rmaxwidth]; if(vga->mode->y > vm->r[Rmaxheight]) vga->mode->y = vm->r[Rmaxheight]; vm->r[Rwidth] = vga->mode->x; vm->r[Rheight] = vga->mode->y; /* Figure out the channel string */ strcpy(vga->mode->chan, vm->chan); /* Record the bytes per line */ ctlr->flag |= Finit; } static void load(Vga* vga, Ctlr *ctlr) { char buf[64]; int x; Vmware *vm; vm = vga->private; vmwr(vm, Rwidth, vm->r[Rwidth]); vmwr(vm, Rheight, vm->r[Rheight]); vmwr(vm, Renable, 1); vmwr(vm, Rguestid, 0x5010); /* OS type is "Other" */ x = vmrd(vm, Rbpl)/(vm->depth/8); if(x != vga->mode->x){ vga->virtx = x; sprint(buf, "%ludx%ludx%d %s", vga->virtx, vga->virty, vga->mode->z, vga->mode->chan); vgactlw("size", buf); } ctlr->flag |= Fload; } static void dump(Vga* vga, Ctlr* ctlr) { int i; Vmware *vm; vm = vga->private; for(i=0; i<Nreg; i++){ printitem(ctlr->name, rname[i]); Bprint(&stdout, " %.8lux\n", vm->r[i]); } printitem(ctlr->name, "chan"); Bprint(&stdout, " %s\n", vm->chan); printitem(ctlr->name, "depth"); Bprint(&stdout, " %d\n", vm->depth); printitem(ctlr->name, "linear"); } Ctlr vmware = { "vmware", /* name */ snarf, /* snarf */ options, /* options */ init, /* init */ load, /* load */ dump, /* dump */ }; Ctlr vmwarehwgc = { "vmwarehwgc", /* name */ 0, /* snarf */ 0, /* options */ 0, /* init */ 0, /* load */ 0, /* dump */ };