/* $XFree86: xc/programs/Xserver/hw/xfree86/vbe/vbe.c,v 1.2tsi Exp $ */ /* * XFree86 vbe module * Copyright 2000 Egbert Eich * * The mode query/save/set/restore functions from the vesa driver * have been moved here. * Copyright (c) 2000 by Conectiva S.A. (http://www.conectiva.com) * Authors: Paulo César Pereira de Andrade */ #ifdef HAVE_XORG_CONFIG_H #include #endif #include "xf86.h" #include "xf86_ansic.h" #include "vbe.h" #include #define DPMS_SERVER #include #define VERSION(x) VBE_VERSION_MAJOR(x),VBE_VERSION_MINOR(x) #if X_BYTE_ORDER == X_LITTLE_ENDIAN #define B_O16(x) (x) #define B_O32(x) (x) #else #define B_O16(x) ((((x) & 0xff) << 8) | (((x) & 0xff) >> 8)) #define B_O32(x) ((((x) & 0xff) << 24) | (((x) & 0xff00) << 8) \ | (((x) & 0xff0000) >> 8) | (((x) & 0xff000000) >> 24)) #endif #define L_ADD(x) (B_O32(x) & 0xffff) + ((B_O32(x) >> 12) & 0xffff00) #define FARP(p) (((unsigned)(p & 0xffff0000) >> 12) | (p & 0xffff)) #define R16(v) ((v) & 0xffff) static unsigned char * vbeReadEDID(vbeInfoPtr pVbe); static Bool vbeProbeDDC(vbeInfoPtr pVbe); const char *vbe_ddcSymbols[] = { "xf86InterpretEDID", NULL }; static const char vbeVersionString[] = "VBE2"; vbeInfoPtr VBEInit(xf86Int10InfoPtr pInt, int entityIndex) { return VBEExtendedInit(pInt, entityIndex, 0); } vbeInfoPtr VBEExtendedInit(xf86Int10InfoPtr pInt, int entityIndex, int Flags) { int RealOff; pointer page = NULL; ScrnInfoPtr pScrn = xf86FindScreenForEntity(entityIndex); vbeControllerInfoPtr vbe = NULL; Bool init_int10 = FALSE; vbeInfoPtr vip = NULL; int screen; if (!pScrn) return NULL; screen = pScrn->scrnIndex; if (!pInt) { if (!xf86LoadSubModule(pScrn, "int10")) goto error; xf86DrvMsg(screen,X_INFO,"initializing int10\n"); pInt = xf86ExtendedInitInt10(entityIndex,Flags); if (!pInt) goto error; init_int10 = TRUE; } page = xf86Int10AllocPages(pInt,1,&RealOff); if (!page) goto error; vbe = (vbeControllerInfoPtr) page; memcpy(vbe->VbeSignature,vbeVersionString,4); pInt->ax = 0x4F00; pInt->es = SEG_ADDR(RealOff); pInt->di = SEG_OFF(RealOff); pInt->num = 0x10; xf86ExecX86int10(pInt); if ((pInt->ax & 0xff) != 0x4f) { xf86DrvMsgVerb(screen,X_INFO,3,"VESA BIOS not detected\n"); goto error; } switch (pInt->ax & 0xff00) { case 0: xf86DrvMsg(screen,X_INFO,"VESA BIOS detected\n"); break; case 0x100: xf86DrvMsg(screen,X_INFO,"VESA BIOS function failed\n"); goto error; case 0x200: xf86DrvMsg(screen,X_INFO,"VESA BIOS not supported\n"); goto error; case 0x300: xf86DrvMsg(screen,X_INFO,"VESA BIOS not supported in current mode\n"); goto error; default: xf86DrvMsg(screen,X_INFO,"Invalid\n"); goto error; } xf86DrvMsgVerb(screen, X_INFO, 4, "VbeVersion is %d, OemStringPtr is 0x%08lx,\n" "\tOemVendorNamePtr is 0x%08lx, OemProductNamePtr is 0x%08lx,\n" "\tOemProductRevPtr is 0x%08lx\n", vbe->VbeVersion, (unsigned long)vbe->OemStringPtr, (unsigned long)vbe->OemVendorNamePtr, (unsigned long)vbe->OemProductNamePtr, (unsigned long)vbe->OemProductRevPtr); xf86DrvMsgVerb(screen,X_INFO,3,"VESA VBE Version %i.%i\n", VERSION(vbe->VbeVersion)); xf86DrvMsgVerb(screen,X_INFO,3,"VESA VBE Total Mem: %i kB\n", vbe->TotalMem * 64); xf86DrvMsgVerb(screen,X_INFO,3,"VESA VBE OEM: %s\n", (CARD8*)xf86int10Addr(pInt,L_ADD(vbe->OemStringPtr))); if (B_O16(vbe->VbeVersion) >= 0x200) { xf86DrvMsgVerb(screen,X_INFO,3,"VESA VBE OEM Software Rev: %i.%i\n", VERSION(vbe->OemSoftwareRev)); if (vbe->OemVendorNamePtr) xf86DrvMsgVerb(screen,X_INFO,3,"VESA VBE OEM Vendor: %s\n", (CARD8*)xf86int10Addr(pInt,L_ADD(vbe->OemVendorNamePtr))); if (vbe->OemProductNamePtr) xf86DrvMsgVerb(screen,X_INFO,3,"VESA VBE OEM Product: %s\n", (CARD8*)xf86int10Addr(pInt,L_ADD(vbe->OemProductNamePtr))); if (vbe->OemProductRevPtr) xf86DrvMsgVerb(screen,X_INFO,3,"VESA VBE OEM Product Rev: %s\n", (CARD8*)xf86int10Addr(pInt,L_ADD(vbe->OemProductRevPtr))); } vip = (vbeInfoPtr)xnfalloc(sizeof(vbeInfoRec)); vip->version = B_O16(vbe->VbeVersion); vip->pInt10 = pInt; vip->ddc = DDC_UNCHECKED; vip->memory = page; vip->real_mode_base = RealOff; vip->num_pages = 1; vip->init_int10 = init_int10; return vip; error: if (page) xf86Int10FreePages(pInt, page, 1); if (init_int10) xf86FreeInt10(pInt); return NULL; } void vbeFree(vbeInfoPtr pVbe) { if (!pVbe) return; xf86Int10FreePages(pVbe->pInt10,pVbe->memory,pVbe->num_pages); /* If we have initalized int10 we ought to free it, too */ if (pVbe->init_int10) xf86FreeInt10(pVbe->pInt10); xfree(pVbe); return; } static Bool vbeProbeDDC(vbeInfoPtr pVbe) { char *ddc_level; int screen = pVbe->pInt10->scrnIndex; if (!pVbe || (pVbe->ddc == DDC_NONE)) return FALSE; if (pVbe->ddc != DDC_UNCHECKED) return TRUE; pVbe->pInt10->ax = 0x4F15; pVbe->pInt10->bx = 0; pVbe->pInt10->cx = 0; pVbe->pInt10->es = 0; pVbe->pInt10->di = 0; pVbe->pInt10->num = 0x10; xf86ExecX86int10(pVbe->pInt10); if ((pVbe->pInt10->ax & 0xff) != 0x4f) { xf86DrvMsgVerb(screen,X_INFO,3,"VESA VBE DDC not supported\n"); pVbe->ddc = DDC_NONE; return FALSE; } switch ((pVbe->pInt10->ax >> 8) & 0xff) { case 0: xf86DrvMsg(screen,X_INFO,"VESA VBE DDC supported\n"); switch (pVbe->pInt10->bx & 0x3) { case 0: ddc_level = " none"; pVbe->ddc = DDC_NONE; break; case 1: ddc_level = " 1"; pVbe->ddc = DDC_1; break; case 2: ddc_level = " 2"; pVbe->ddc = DDC_2; break; case 3: ddc_level = " 1 + 2"; pVbe->ddc = DDC_1_2; break; default: ddc_level = ""; pVbe->ddc = DDC_NONE; break; } xf86DrvMsgVerb(screen,X_INFO,3,"VESA VBE DDC Level%s\n",ddc_level); if (pVbe->pInt10->bx & 0x4) { xf86DrvMsgVerb(screen,X_INFO,3,"VESA VBE DDC Screen blanked" "for data transfer\n"); pVbe->ddc_blank = TRUE; } else pVbe->ddc_blank = FALSE; xf86DrvMsgVerb(screen,X_INFO,3, "VESA VBE DDC transfer in appr. %x sec.\n", (pVbe->pInt10->bx >> 8) & 0xff); } return TRUE; } typedef enum { VBEOPT_NOVBE, VBEOPT_NODDC } VBEOpts; static const OptionInfoRec VBEOptions[] = { { VBEOPT_NOVBE, "NoVBE", OPTV_BOOLEAN, {0}, FALSE }, { VBEOPT_NODDC, "NoDDC", OPTV_BOOLEAN, {0}, FALSE }, { -1, NULL, OPTV_NONE, {0}, FALSE }, }; static unsigned char * vbeReadEDID(vbeInfoPtr pVbe) { int RealOff = pVbe->real_mode_base; pointer page = pVbe->memory; unsigned char *tmp = NULL; Bool novbe = FALSE; Bool noddc = FALSE; int screen = pVbe->pInt10->scrnIndex; OptionInfoPtr options; if (!page) return NULL; options = xnfalloc(sizeof(VBEOptions)); (void)memcpy(options, VBEOptions, sizeof(VBEOptions)); xf86ProcessOptions(screen, xf86Screens[screen]->options, options); xf86GetOptValBool(options, VBEOPT_NOVBE, &novbe); xf86GetOptValBool(options, VBEOPT_NODDC, &noddc); xfree(options); if (novbe || noddc) return NULL; if (!vbeProbeDDC(pVbe)) goto error; memset(page,0,sizeof(vbeInfoPtr)); strcpy(page,vbeVersionString); pVbe->pInt10->ax = 0x4F15; pVbe->pInt10->bx = 0x01; pVbe->pInt10->cx = 0; pVbe->pInt10->dx = 0; pVbe->pInt10->es = SEG_ADDR(RealOff); pVbe->pInt10->di = SEG_OFF(RealOff); pVbe->pInt10->num = 0x10; xf86ExecX86int10(pVbe->pInt10); if ((pVbe->pInt10->ax & 0xff) != 0x4f) { xf86DrvMsgVerb(screen,X_INFO,3,"VESA VBE DDC invalid\n"); goto error; } switch (pVbe->pInt10->ax & 0xff00) { case 0x0: xf86DrvMsgVerb(screen,X_INFO,3,"VESA VBE DDC read successfully\n"); tmp = (unsigned char *)xnfalloc(128); memcpy(tmp,page,128); break; case 0x100: xf86DrvMsgVerb(screen,X_INFO,3,"VESA VBE DDC read failed\n"); break; default: xf86DrvMsgVerb(screen,X_INFO,3,"VESA VBE DDC unkown failure %i\n", pVbe->pInt10->ax & 0xff00); break; } error: return tmp; } xf86MonPtr vbeDoEDID(vbeInfoPtr pVbe, pointer pDDCModule) { xf86MonPtr pMonitor; pointer pModule; unsigned char *DDC_data = NULL; if (!pVbe) return NULL; if (pVbe->version < 0x200) return NULL; if (!(pModule = pDDCModule)) { pModule = xf86LoadSubModule(xf86Screens[pVbe->pInt10->scrnIndex], "ddc"); if (!pModule) return NULL; xf86LoaderReqSymLists(vbe_ddcSymbols, NULL); } DDC_data = vbeReadEDID(pVbe); if (!DDC_data) return NULL; pMonitor = xf86InterpretEDID(pVbe->pInt10->scrnIndex, DDC_data); if (!pDDCModule) xf86UnloadSubModule(pModule); return pMonitor; } #define GET_UNALIGNED2(x) \ ((*(CARD16*)(x)) | (*(((CARD16*)(x) + 1))) << 16) VbeInfoBlock * VBEGetVBEInfo(vbeInfoPtr pVbe) { VbeInfoBlock *block = NULL; int i, pStr, pModes; char *str; CARD16 major, *modes; bzero(pVbe->memory, sizeof(VbeInfoBlock)); /* Input: AH := 4Fh Super VGA support AL := 00h Return Super VGA information ES:DI := Pointer to buffer Output: AX := status (All other registers are preserved) */ ((char*)pVbe->memory)[0] = 'V'; ((char*)pVbe->memory)[1] = 'B'; ((char*)pVbe->memory)[2] = 'E'; ((char*)pVbe->memory)[3] = '2'; pVbe->pInt10->num = 0x10; pVbe->pInt10->ax = 0x4f00; pVbe->pInt10->es = SEG_ADDR(pVbe->real_mode_base); pVbe->pInt10->di = SEG_OFF(pVbe->real_mode_base); xf86ExecX86int10(pVbe->pInt10); if (R16(pVbe->pInt10->ax) != 0x4f) return (NULL); block = xcalloc(sizeof(VbeInfoBlock), 1); block->VESASignature[0] = ((char*)pVbe->memory)[0]; block->VESASignature[1] = ((char*)pVbe->memory)[1]; block->VESASignature[2] = ((char*)pVbe->memory)[2]; block->VESASignature[3] = ((char*)pVbe->memory)[3]; block->VESAVersion = *(CARD16*)(((char*)pVbe->memory) + 4); major = (unsigned)block->VESAVersion >> 8; pStr = GET_UNALIGNED2((((char*)pVbe->memory) + 6)); str = xf86int10Addr(pVbe->pInt10, FARP(pStr)); block->OEMStringPtr = strdup(str); block->Capabilities[0] = ((char*)pVbe->memory)[10]; block->Capabilities[1] = ((char*)pVbe->memory)[11]; block->Capabilities[2] = ((char*)pVbe->memory)[12]; block->Capabilities[3] = ((char*)pVbe->memory)[13]; pModes = GET_UNALIGNED2((((char*)pVbe->memory) + 14)); modes = xf86int10Addr(pVbe->pInt10, FARP(pModes)); i = 0; while (modes[i] != 0xffff) i++; block->VideoModePtr = xalloc(sizeof(CARD16) * i + 1); memcpy(block->VideoModePtr, modes, sizeof(CARD16) * i); block->VideoModePtr[i] = 0xffff; block->TotalMemory = *(CARD16*)(((char*)pVbe->memory) + 18); if (major < 2) memcpy(&block->OemSoftwareRev, ((char*)pVbe->memory) + 20, 236); else { block->OemSoftwareRev = *(CARD16*)(((char*)pVbe->memory) + 20); pStr = GET_UNALIGNED2((((char*)pVbe->memory) + 22)); str = xf86int10Addr(pVbe->pInt10, FARP(pStr)); block->OemVendorNamePtr = strdup(str); pStr = GET_UNALIGNED2((((char*)pVbe->memory) + 26)); str = xf86int10Addr(pVbe->pInt10, FARP(pStr)); block->OemProductNamePtr = strdup(str); pStr = GET_UNALIGNED2((((char*)pVbe->memory) + 30)); str = xf86int10Addr(pVbe->pInt10, FARP(pStr)); block->OemProductRevPtr = strdup(str); memcpy(&block->Reserved, ((char*)pVbe->memory) + 34, 222); memcpy(&block->OemData, ((char*)pVbe->memory) + 256, 256); } return (block); } void VBEFreeVBEInfo(VbeInfoBlock *block) { xfree(block->OEMStringPtr); xfree(block->VideoModePtr); if (((unsigned)block->VESAVersion >> 8) >= 2) { xfree(block->OemVendorNamePtr); xfree(block->OemProductNamePtr); xfree(block->OemProductRevPtr); } xfree(block); } Bool VBESetVBEMode(vbeInfoPtr pVbe, int mode, VbeCRTCInfoBlock *block) { /* Input: AH := 4Fh Super VGA support AL := 02h Set Super VGA video mode BX := Video mode D0-D8 := Mode number D9-D10 := Reserved (must be 0) D11 := 0 Use current default refresh rate := 1 Use user specified CRTC values for refresh rate D12-13 Reserved for VBE/AF (must be 0) D14 := 0 Use windowed frame buffer model := 1 Use linear/flat frame buffer model D15 := 0 Clear video memory := 1 Don't clear video memory ES:DI := Pointer to VbeCRTCInfoBlock structure Output: AX = Status (All other registers are preserved) */ pVbe->pInt10->num = 0x10; pVbe->pInt10->ax = 0x4f02; pVbe->pInt10->bx = mode; if (block) { pVbe->pInt10->bx |= 1 << 11; memcpy(pVbe->memory, block, sizeof(VbeCRTCInfoBlock)); pVbe->pInt10->es = SEG_ADDR(pVbe->real_mode_base); pVbe->pInt10->di = SEG_OFF(pVbe->real_mode_base); } else pVbe->pInt10->bx &= ~(1 << 11); xf86ExecX86int10(pVbe->pInt10); return (R16(pVbe->pInt10->ax) == 0x4f); } Bool VBEGetVBEMode(vbeInfoPtr pVbe, int *mode) { /* Input: AH := 4Fh Super VGA support AL := 03h Return current video mode Output: AX := Status BX := Current video mode (All other registers are preserved) */ pVbe->pInt10->num = 0x10; pVbe->pInt10->ax = 0x4f03; xf86ExecX86int10(pVbe->pInt10); if (R16(pVbe->pInt10->ax) == 0x4f) { *mode = R16(pVbe->pInt10->bx); return (TRUE); } return (FALSE); } VbeModeInfoBlock * VBEGetModeInfo(vbeInfoPtr pVbe, int mode) { VbeModeInfoBlock *block = NULL; bzero(pVbe->memory, sizeof(VbeModeInfoBlock)); /* Input: AH := 4Fh Super VGA support AL := 01h Return Super VGA mode information CX := Super VGA video mode (mode number must be one of those returned by Function 0) ES:DI := Pointer to buffer Output: AX := status (All other registers are preserved) */ pVbe->pInt10->num = 0x10; pVbe->pInt10->ax = 0x4f01; pVbe->pInt10->cx = mode; pVbe->pInt10->es = SEG_ADDR(pVbe->real_mode_base); pVbe->pInt10->di = SEG_OFF(pVbe->real_mode_base); xf86ExecX86int10(pVbe->pInt10); if (R16(pVbe->pInt10->ax) != 0x4f) return (NULL); block = xcalloc(sizeof(VbeModeInfoBlock), 1); block->ModeAttributes = *(CARD16*)pVbe->memory; block->WinAAttributes = ((char*)pVbe->memory)[2]; block->WinBAttributes = ((char*)pVbe->memory)[3]; block->WinGranularity = *(CARD16*)(((char*)pVbe->memory) + 4); block->WinSize = *(CARD16*)(((char*)pVbe->memory) + 6); block->WinASegment = *(CARD16*)(((char*)pVbe->memory) + 8); block->WinBSegment = *(CARD16*)(((char*)pVbe->memory) + 10); block->WinFuncPtr = *(CARD32*)(((char*)pVbe->memory) + 12); block->BytesPerScanline = *(CARD16*)(((char*)pVbe->memory) + 16); /* mandatory information for VBE 1.2 and above */ block->XResolution = *(CARD16*)(((char*)pVbe->memory) + 18); block->YResolution = *(CARD16*)(((char*)pVbe->memory) + 20); block->XCharSize = ((char*)pVbe->memory)[22]; block->YCharSize = ((char*)pVbe->memory)[23]; block->NumberOfPlanes = ((char*)pVbe->memory)[24]; block->BitsPerPixel = ((char*)pVbe->memory)[25]; block->NumberOfBanks = ((char*)pVbe->memory)[26]; block->MemoryModel = ((char*)pVbe->memory)[27]; block->BankSize = ((char*)pVbe->memory)[28]; block->NumberOfImages = ((char*)pVbe->memory)[29]; block->Reserved = ((char*)pVbe->memory)[30]; /* Direct color fields (required for direct/6 and YUV/7 memory models) */ block->RedMaskSize = ((char*)pVbe->memory)[31]; block->RedFieldPosition = ((char*)pVbe->memory)[32]; block->GreenMaskSize = ((char*)pVbe->memory)[33]; block->GreenFieldPosition = ((char*)pVbe->memory)[34]; block->BlueMaskSize = ((char*)pVbe->memory)[35]; block->BlueFieldPosition = ((char*)pVbe->memory)[36]; block->RsvdMaskSize = ((char*)pVbe->memory)[37]; block->RsvdFieldPosition = ((char*)pVbe->memory)[38]; block->DirectColorModeInfo = ((char*)pVbe->memory)[39]; /* Mandatory information for VBE 2.0 and above */ if (pVbe->version >= 0x200) { block->PhysBasePtr = *(CARD32*)(((char*)pVbe->memory) + 40); block->Reserved32 = *(CARD32*)(((char*)pVbe->memory) + 44); block->Reserved16 = *(CARD16*)(((char*)pVbe->memory) + 48); /* Mandatory information for VBE 3.0 and above */ if (pVbe->version >= 0x300) { block->LinBytesPerScanLine = *(CARD16*)(((char*)pVbe->memory) + 50); block->BnkNumberOfImagePages = ((char*)pVbe->memory)[52]; block->LinNumberOfImagePages = ((char*)pVbe->memory)[53]; block->LinRedMaskSize = ((char*)pVbe->memory)[54]; block->LinRedFieldPosition = ((char*)pVbe->memory)[55]; block->LinGreenMaskSize = ((char*)pVbe->memory)[56]; block->LinGreenFieldPosition = ((char*)pVbe->memory)[57]; block->LinBlueMaskSize = ((char*)pVbe->memory)[58]; block->LinBlueFieldPosition = ((char*)pVbe->memory)[59]; block->LinRsvdMaskSize = ((char*)pVbe->memory)[60]; block->LinRsvdFieldPosition = ((char*)pVbe->memory)[61]; block->MaxPixelClock = *(CARD32*)(((char*)pVbe->memory) + 62); memcpy(&block->Reserved2, ((char*)pVbe->memory) + 66, 188); } else memcpy(&block->LinBytesPerScanLine, ((char*)pVbe->memory) + 50, 206); } else memcpy(&block->PhysBasePtr, ((char*)pVbe->memory) + 40, 216); return (block); } void VBEFreeModeInfo(VbeModeInfoBlock *block) { xfree(block); } Bool VBESaveRestore(vbeInfoPtr pVbe, vbeSaveRestoreFunction function, pointer *memory, int *size, int *real_mode_pages) { /* Input: AH := 4Fh Super VGA support AL := 04h Save/restore Super VGA video state DL := 00h Return save/restore state buffer size CX := Requested states D0 = Save/restore video hardware state D1 = Save/restore video BIOS data state D2 = Save/restore video DAC state D3 = Save/restore Super VGA state Output: AX = Status BX = Number of 64-byte blocks to hold the state buffer (All other registers are preserved) Input: AH := 4Fh Super VGA support AL := 04h Save/restore Super VGA video state DL := 01h Save Super VGA video state CX := Requested states (see above) ES:BX := Pointer to buffer Output: AX := Status (All other registers are preserved) Input: AH := 4Fh Super VGA support AL := 04h Save/restore Super VGA video state DL := 02h Restore Super VGA video state CX := Requested states (see above) ES:BX := Pointer to buffer Output: AX := Status (All other registers are preserved) */ if ((pVbe->version & 0xff00) > 0x100) { int screen = pVbe->pInt10->scrnIndex; if (function == MODE_QUERY || (function == MODE_SAVE && !*memory)) { /* Query amount of memory to save state */ pVbe->pInt10->num = 0x10; pVbe->pInt10->ax = 0x4f04; pVbe->pInt10->dx = 0; pVbe->pInt10->cx = 0x000f; xf86ExecX86int10(pVbe->pInt10); if (R16(pVbe->pInt10->ax) != 0x4f) return (FALSE); if (function == MODE_SAVE) { int npages = (R16(pVbe->pInt10->bx) * 64) / 4096 + 1; if ((*memory = xf86Int10AllocPages(pVbe->pInt10, npages, real_mode_pages)) == NULL) { xf86DrvMsg(screen, X_ERROR, "Cannot allocate memory to save SVGA state.\n"); return (FALSE); } } *size = pVbe->pInt10->bx * 64; } /* Save/Restore Super VGA state */ if (function != MODE_QUERY) { if (!*memory) return FALSE; pVbe->pInt10->num = 0x10; pVbe->pInt10->ax = 0x4f04; switch (function) { case MODE_SAVE: pVbe->pInt10->dx = 1; break; case MODE_RESTORE: pVbe->pInt10->dx = 2; break; case MODE_QUERY: return FALSE; } pVbe->pInt10->cx = 0x000f; pVbe->pInt10->es = SEG_ADDR(*real_mode_pages); pVbe->pInt10->bx = SEG_OFF(*real_mode_pages); xf86ExecX86int10(pVbe->pInt10); return (R16(pVbe->pInt10->ax) == 0x4f); } } return TRUE; } Bool VBEBankSwitch(vbeInfoPtr pVbe, unsigned int iBank, int window) { /* Input: AH := 4Fh Super VGA support AL := 05h Output: */ pVbe->pInt10->num = 0x10; pVbe->pInt10->ax = 0x4f05; pVbe->pInt10->bx = window; pVbe->pInt10->dx = iBank; xf86ExecX86int10(pVbe->pInt10); if (R16(pVbe->pInt10->ax) != 0x4f) return (FALSE); return (TRUE); } Bool VBESetGetLogicalScanlineLength(vbeInfoPtr pVbe, vbeScanwidthCommand command, int width, int *pixels, int *bytes, int *max) { if (command < SCANWID_SET || command > SCANWID_GET_MAX) return (FALSE); /* Input: AX := 4F06h VBE Set/Get Logical Scan Line Length BL := 00h Set Scan Line Length in Pixels := 01h Get Scan Line Length := 02h Set Scan Line Length in Bytes := 03h Get Maximum Scan Line Length CX := If BL=00h Desired Width in Pixels If BL=02h Desired Width in Bytes (Ignored for Get Functions) Output: AX := VBE Return Status BX := Bytes Per Scan Line CX := Actual Pixels Per Scan Line (truncated to nearest complete pixel) DX := Maximum Number of Scan Lines */ pVbe->pInt10->num = 0x10; pVbe->pInt10->ax = 0x4f06; pVbe->pInt10->bx = command; if (command == SCANWID_SET || command == SCANWID_SET_BYTES) pVbe->pInt10->cx = width; xf86ExecX86int10(pVbe->pInt10); if (R16(pVbe->pInt10->ax) != 0x4f) return (FALSE); if (command == SCANWID_GET || command == SCANWID_GET_MAX) { if (pixels) *pixels = R16(pVbe->pInt10->cx); if (bytes) *bytes = R16(pVbe->pInt10->bx); if (max) *max = R16(pVbe->pInt10->dx); } return (TRUE); } Bool VBESetDisplayStart(vbeInfoPtr pVbe, int x, int y, Bool wait_retrace) { pVbe->pInt10->num = 0x10; pVbe->pInt10->ax = 0x4f07; pVbe->pInt10->bx = wait_retrace ? 0x80 : 0x00; pVbe->pInt10->cx = x; pVbe->pInt10->dx = y; xf86ExecX86int10(pVbe->pInt10); if (R16(pVbe->pInt10->ax) != 0x4f) return (FALSE); return (TRUE); } Bool VBEGetDisplayStart(vbeInfoPtr pVbe, int *x, int *y) { pVbe->pInt10->num = 0x10; pVbe->pInt10->ax = 0x4f07; pVbe->pInt10->bx = 0x01; xf86ExecX86int10(pVbe->pInt10); if (R16(pVbe->pInt10->ax) != 0x4f) return (FALSE); *x = pVbe->pInt10->cx; *y = pVbe->pInt10->dx; return (TRUE); } int VBESetGetDACPaletteFormat(vbeInfoPtr pVbe, int bits) { /* Input: AX := 4F08h VBE Set/Get Palette Format BL := 00h Set DAC Palette Format := 01h Get DAC Palette Format BH := Desired bits of color per primary (Set DAC Palette Format only) Output: AX := VBE Return Status BH := Current number of bits of color per primary */ pVbe->pInt10->num = 0x10; pVbe->pInt10->ax = 0x4f08; if (!bits) pVbe->pInt10->bx = 0x01; else pVbe->pInt10->bx = (bits & 0x00ff) << 8; xf86ExecX86int10(pVbe->pInt10); if (R16(pVbe->pInt10->ax) != 0x4f) return (0); return (bits != 0 ? bits : (pVbe->pInt10->bx >> 8) & 0x00ff); } CARD32 * VBESetGetPaletteData(vbeInfoPtr pVbe, Bool set, int first, int num, CARD32 *data, Bool secondary, Bool wait_retrace) { /* Input: (16-bit) AX := 4F09h VBE Load/Unload Palette Data BL := 00h Set Palette Data := 01h Get Palette Data := 02h Set Secondary Palette Data := 03h Get Secondary Palette Data := 80h Set Palette Data during Vertical Retrace CX := Number of palette registers to update (to a maximum of 256) DX := First of the palette registers to update (start) ES:DI := Table of palette values (see below for format) Output: AX := VBE Return Status Input: (32-bit) BL := 00h Set Palette Data := 80h Set Palette Data during Vertical Retrace CX := Number of palette registers to update (to a maximum of 256) DX := First of the palette registers to update (start) ES:EDI := Table of palette values (see below for format) DS := Selector for memory mapped registers */ pVbe->pInt10->num = 0x10; pVbe->pInt10->ax = 0x4f09; if (!secondary) pVbe->pInt10->bx = set && wait_retrace ? 0x80 : set ? 0 : 1; else pVbe->pInt10->bx = set ? 2 : 3; pVbe->pInt10->cx = num; pVbe->pInt10->dx = first; pVbe->pInt10->es = SEG_ADDR(pVbe->real_mode_base); pVbe->pInt10->di = SEG_OFF(pVbe->real_mode_base); if (set) memcpy(pVbe->memory, data, num * sizeof(CARD32)); xf86ExecX86int10(pVbe->pInt10); if (R16(pVbe->pInt10->ax) != 0x4f) return (NULL); if (set) return (data); data = xalloc(num * sizeof(CARD32)); memcpy(data, pVbe->memory, num * sizeof(CARD32)); return (data); } VBEpmi * VBEGetVBEpmi(vbeInfoPtr pVbe) { VBEpmi *pmi; /* Input: AH := 4Fh Super VGA support AL := 0Ah Protected Mode Interface BL := 00h Return Protected Mode Table Output: AX := Status ES := Real Mode Segment of Table DI := Offset of Table CX := Lenght of Table including protected mode code in bytes (for copying purposes) (All other registers are preserved) */ pVbe->pInt10->num = 0x10; pVbe->pInt10->ax = 0x4f0a; pVbe->pInt10->bx = 0; pVbe->pInt10->di = 0; xf86ExecX86int10(pVbe->pInt10); if (R16(pVbe->pInt10->ax) != 0x4f) return (NULL); pmi = xalloc(sizeof(VBEpmi)); pmi->seg_tbl = R16(pVbe->pInt10->es); pmi->tbl_off = R16(pVbe->pInt10->di); pmi->tbl_len = R16(pVbe->pInt10->cx); return (pmi); } #if 0 vbeModeInfoPtr VBEBuildVbeModeList(vbeInfoPtr pVbe, VbeInfoBlock *vbe) { vbeModeInfoPtr ModeList = NULL; int i = 0; while (vbe->VideoModePtr[i] != 0xffff) { vbeModeInfoPtr m; VbeModeInfoBlock *mode; int id = vbe->VideoModePtr[i++]; int bpp; if ((mode = VBEGetModeInfo(pVbe, id)) == NULL) continue; bpp = mode->BitsPerPixel; m = xnfcalloc(sizeof(vbeModeInfoRec),1); m->width = mode->XResolution; m->height = mode->YResolution; m->bpp = bpp; m->n = id; m->next = ModeList; xf86DrvMsgVerb(pVbe->pInt10->scrnIndex, X_PROBED, 3, "BIOS reported VESA mode 0x%x: x:%i y:%i bpp:%i\n", m->n, m->width, m->height, m->bpp); ModeList = m; VBEFreeModeInfo(mode); } return ModeList; } unsigned short VBECalcVbeModeIndex(vbeModeInfoPtr m, DisplayModePtr mode, int bpp) { while (m) { if (bpp == m->bpp && mode->HDisplay == m->width && mode->VDisplay == m->height) return m->n; m = m->next; } return 0; } #endif void VBEVesaSaveRestore(vbeInfoPtr pVbe, vbeSaveRestorePtr vbe_sr, vbeSaveRestoreFunction function) { Bool SaveSucc = FALSE; if (VBE_VERSION_MAJOR(pVbe->version) > 1 && (function == MODE_SAVE || vbe_sr->pstate)) { if (function == MODE_RESTORE) memcpy(vbe_sr->state, vbe_sr->pstate, vbe_sr->stateSize); ErrorF("VBESaveRestore\n"); if ((VBESaveRestore(pVbe,function, (pointer)&vbe_sr->state, &vbe_sr->stateSize,&vbe_sr->statePage))) { if (function == MODE_SAVE) { SaveSucc = TRUE; vbe_sr->stateMode = -1; /* invalidate */ /* don't rely on the memory not being touched */ if (vbe_sr->pstate == NULL) vbe_sr->pstate = xalloc(vbe_sr->stateSize); memcpy(vbe_sr->pstate, vbe_sr->state, vbe_sr->stateSize); } ErrorF("VBESaveRestore done with success\n"); return; } ErrorF("VBESaveRestore done\n"); } if (function == MODE_SAVE && !SaveSucc) (void)VBEGetVBEMode(pVbe, &vbe_sr->stateMode); if (function == MODE_RESTORE && vbe_sr->stateMode != -1) VBESetVBEMode(pVbe, vbe_sr->stateMode, NULL); } int VBEGetPixelClock(vbeInfoPtr pVbe, int mode, int clock) { /* Input: AX := 4F0Bh VBE Get Pixel Clock BL := 01h Get Pixel Clock ECX := pixel clock in units of Hz DX := mode number Output: AX := VBE Return Status ECX := Closest pixel clock */ pVbe->pInt10->num = 0x10; pVbe->pInt10->ax = 0x4f0b; pVbe->pInt10->bx = 0x01; pVbe->pInt10->cx = clock; pVbe->pInt10->dx = mode; xf86ExecX86int10(pVbe->pInt10); if (R16(pVbe->pInt10->ax) != 0x4f) return (0); return (pVbe->pInt10->cx); } Bool VBEDPMSSet(vbeInfoPtr pVbe, int mode) { /* Input: AX := 4F10h DPMS BL := 01h Set Display Power State BH := requested power state Output: AX := VBE Return Status */ pVbe->pInt10->num = 0x10; pVbe->pInt10->ax = 0x4f10; pVbe->pInt10->bx = 0x01; switch (mode) { case DPMSModeOn: break; case DPMSModeStandby: pVbe->pInt10->bx |= 0x100; break; case DPMSModeSuspend: pVbe->pInt10->bx |= 0x200; break; case DPMSModeOff: pVbe->pInt10->bx |= 0x400; break; } xf86ExecX86int10(pVbe->pInt10); return (R16(pVbe->pInt10->ax) == 0x4f); }