/**************************************************************************** * * VBE 2.0 Linear Framebuffer Profiler * By Kendall Bennett and Brian Hook * * Filename: LFBPROF.C * Language: ANSI C * Environment: Watcom C/C++ 10.0a with DOS4GW * * Description: Simple program to profile the speed of screen clearing * and full screen BitBlt operations using a VESA VBE 2.0 * linear framebuffer from 32 bit protected mode. * * For simplicity, this program only supports 256 color * SuperVGA video modes that support a linear framebuffer. * * * 2002/02/18: Jeroen Janssen * - fixed unsigned short for mode list (-1 != 0xffff otherwise) * - fixed LfbMapRealPointer macro mask problem (some modes were skipped) * ****************************************************************************/ #include #include #include #include #include #include "lfbprof.h" /*---------------------------- Global Variables ---------------------------*/ int VESABuf_len = 1024; /* Length of VESABuf */ int VESABuf_sel = 0; /* Selector for VESABuf */ int VESABuf_rseg; /* Real mode segment of VESABuf */ unsigned short modeList[50]; /* List of available VBE modes */ float clearsPerSec; /* Number of clears per second */ float clearsMbPerSec; /* Memory transfer for clears */ float bitBltsPerSec; /* Number of BitBlt's per second */ float bitBltsMbPerSec; /* Memory transfer for bitblt's */ int xres,yres; /* Video mode resolution */ int bytesperline; /* Bytes per scanline for mode */ long imageSize; /* Length of the video image */ char *LFBPtr; /* Pointer to linear framebuffer */ /*------------------------- DPMI interface routines -----------------------*/ void DPMI_allocRealSeg(int size,int *sel,int *r_seg) /**************************************************************************** * * Function: DPMI_allocRealSeg * Parameters: size - Size of memory block to allocate * sel - Place to return protected mode selector * r_seg - Place to return real mode segment * * Description: Allocates a block of real mode memory using DPMI services. * This routine returns both a protected mode selector and * real mode segment for accessing the memory block. * ****************************************************************************/ { union REGS r; r.w.ax = 0x100; /* DPMI allocate DOS memory */ r.w.bx = (size + 0xF) >> 4; /* number of paragraphs */ int386(0x31, &r, &r); if (r.w.cflag) FatalError("DPMI_allocRealSeg failed!"); *sel = r.w.dx; /* Protected mode selector */ *r_seg = r.w.ax; /* Real mode segment */ } void DPMI_freeRealSeg(unsigned sel) /**************************************************************************** * * Function: DPMI_allocRealSeg * Parameters: sel - Protected mode selector of block to free * * Description: Frees a block of real mode memory. * ****************************************************************************/ { union REGS r; r.w.ax = 0x101; /* DPMI free DOS memory */ r.w.dx = sel; /* DX := selector from 0x100 */ int386(0x31, &r, &r); } typedef struct { long edi; long esi; long ebp; long reserved; long ebx; long edx; long ecx; long eax; short flags; short es,ds,fs,gs,ip,cs,sp,ss; } _RMREGS; #define IN(reg) rmregs.e##reg = in->x.reg #define OUT(reg) out->x.reg = rmregs.e##reg int DPMI_int86(int intno, RMREGS *in, RMREGS *out) /**************************************************************************** * * Function: DPMI_int86 * Parameters: intno - Interrupt number to issue * in - Pointer to structure for input registers * out - Pointer to structure for output registers * Returns: Value returned by interrupt in AX * * Description: Issues a real mode interrupt using DPMI services. * ****************************************************************************/ { _RMREGS rmregs; union REGS r; struct SREGS sr; memset(&rmregs, 0, sizeof(rmregs)); IN(ax); IN(bx); IN(cx); IN(dx); IN(si); IN(di); segread(&sr); r.w.ax = 0x300; /* DPMI issue real interrupt */ r.h.bl = intno; r.h.bh = 0; r.w.cx = 0; sr.es = sr.ds; r.x.edi = (unsigned)&rmregs; int386x(0x31, &r, &r, &sr); /* Issue the interrupt */ OUT(ax); OUT(bx); OUT(cx); OUT(dx); OUT(si); OUT(di); out->x.cflag = rmregs.flags & 0x1; return out->x.ax; } int DPMI_int86x(int intno, RMREGS *in, RMREGS *out, RMSREGS *sregs) /**************************************************************************** * * Function: DPMI_int86 * Parameters: intno - Interrupt number to issue * in - Pointer to structure for input registers * out - Pointer to structure for output registers * sregs - Values to load into segment registers * Returns: Value returned by interrupt in AX * * Description: Issues a real mode interrupt using DPMI services. * ****************************************************************************/ { _RMREGS rmregs; union REGS r; struct SREGS sr; memset(&rmregs, 0, sizeof(rmregs)); IN(ax); IN(bx); IN(cx); IN(dx); IN(si); IN(di); rmregs.es = sregs->es; rmregs.ds = sregs->ds; segread(&sr); r.w.ax = 0x300; /* DPMI issue real interrupt */ r.h.bl = intno; r.h.bh = 0; r.w.cx = 0; sr.es = sr.ds; r.x.edi = (unsigned)&rmregs; int386x(0x31, &r, &r, &sr); /* Issue the interrupt */ OUT(ax); OUT(bx); OUT(cx); OUT(dx); OUT(si); OUT(di); sregs->es = rmregs.es; sregs->cs = rmregs.cs; sregs->ss = rmregs.ss; sregs->ds = rmregs.ds; out->x.cflag = rmregs.flags & 0x1; return out->x.ax; } int DPMI_allocSelector(void) /**************************************************************************** * * Function: DPMI_allocSelector * Returns: Newly allocated protected mode selector * * Description: Allocates a new protected mode selector using DPMI * services. This selector has a base address and limit of 0. * ****************************************************************************/ { int sel; union REGS r; r.w.ax = 0; /* DPMI allocate selector */ r.w.cx = 1; /* Allocate a single selector */ int386(0x31, &r, &r); if (r.x.cflag) FatalError("DPMI_allocSelector() failed!"); sel = r.w.ax; r.w.ax = 9; /* DPMI set access rights */ r.w.bx = sel; r.w.cx = 0x8092; /* 32 bit page granular */ int386(0x31, &r, &r); return sel; } long DPMI_mapPhysicalToLinear(long physAddr,long limit) /**************************************************************************** * * Function: DPMI_mapPhysicalToLinear * Parameters: physAddr - Physical memory address to map * limit - Length-1 of physical memory region to map * Returns: Starting linear address for mapped memory * * Description: Maps a section of physical memory into the linear address * space of a process using DPMI calls. Note that this linear * address cannot be used directly, but must be used as the * base address for a selector. * ****************************************************************************/ { union REGS r; r.w.ax = 0x800; /* DPMI map physical to linear */ r.w.bx = physAddr >> 16; r.w.cx = physAddr & 0xFFFF; r.w.si = limit >> 16; r.w.di = limit & 0xFFFF; int386(0x31, &r, &r); if (r.x.cflag) FatalError("DPMI_mapPhysicalToLinear() failed!"); return ((long)r.w.bx << 16) + r.w.cx; } void DPMI_setSelectorBase(int sel,long linAddr) /**************************************************************************** * * Function: DPMI_setSelectorBase * Parameters: sel - Selector to change base address for * linAddr - Linear address used for new base address * * Description: Sets the base address for the specified selector. * ****************************************************************************/ { union REGS r; r.w.ax = 7; /* DPMI set selector base address */ r.w.bx = sel; r.w.cx = linAddr >> 16; r.w.dx = linAddr & 0xFFFF; int386(0x31, &r, &r); if (r.x.cflag) FatalError("DPMI_setSelectorBase() failed!"); } void DPMI_setSelectorLimit(int sel,long limit) /**************************************************************************** * * Function: DPMI_setSelectorLimit * Parameters: sel - Selector to change limit for * limit - Limit-1 for the selector * * Description: Sets the memory limit for the specified selector. * ****************************************************************************/ { union REGS r; r.w.ax = 8; /* DPMI set selector limit */ r.w.bx = sel; r.w.cx = limit >> 16; r.w.dx = limit & 0xFFFF; int386(0x31, &r, &r); if (r.x.cflag) FatalError("DPMI_setSelectorLimit() failed!"); } /*-------------------------- VBE Interface routines -----------------------*/ void FatalError(char *msg) { fprintf(stderr,"%s\n", msg); exit(1); } static void ExitVBEBuf(void) { DPMI_freeRealSeg(VESABuf_sel); } void VBE_initRMBuf(void) /**************************************************************************** * * Function: VBE_initRMBuf * Description: Initialises the VBE transfer buffer in real mode memory. * This routine is called by the VESAVBE module every time * it needs to use the transfer buffer, so we simply allocate * it once and then return. * ****************************************************************************/ { if (!VESABuf_sel) { DPMI_allocRealSeg(VESABuf_len, &VESABuf_sel, &VESABuf_rseg); atexit(ExitVBEBuf); } } void VBE_callESDI(RMREGS *regs, void *buffer, int size) /**************************************************************************** * * Function: VBE_callESDI * Parameters: regs - Registers to load when calling VBE * buffer - Buffer to copy VBE info block to * size - Size of buffer to fill * * Description: Calls the VESA VBE and passes in a buffer for the VBE to * store information in, which is then copied into the users * buffer space. This works in protected mode as the buffer * passed to the VESA VBE is allocated in conventional * memory, and is then copied into the users memory block. * ****************************************************************************/ { RMSREGS sregs; VBE_initRMBuf(); sregs.es = VESABuf_rseg; regs->x.di = 0; _fmemcpy(MK_FP(VESABuf_sel,0),buffer,size); DPMI_int86x(0x10, regs, regs, &sregs); _fmemcpy(buffer,MK_FP(VESABuf_sel,0),size); } int VBE_detect(void) /**************************************************************************** * * Function: VBE_detect * Parameters: vgaInfo - Place to store the VGA information block * Returns: VBE version number, or 0 if not detected. * * Description: Detects if a VESA VBE is out there and functioning * correctly. If we detect a VBE interface we return the * VGAInfoBlock returned by the VBE and the VBE version number. * ****************************************************************************/ { RMREGS regs; unsigned short *p1,*p2; VBE_vgaInfo vgaInfo; /* Put 'VBE2' into the signature area so that the VBE 2.0 BIOS knows * that we have passed a 512 byte extended block to it, and wish * the extended information to be filled in. */ strncpy(vgaInfo.VESASignature,"VBE2",4); /* Get the SuperVGA Information block */ regs.x.ax = 0x4F00; VBE_callESDI(®s, &vgaInfo, sizeof(VBE_vgaInfo)); if (regs.x.ax != 0x004F) return 0; if (strncmp(vgaInfo.VESASignature,"VESA",4) != 0) return 0; /* Now that we have detected a VBE interface, copy the list of available * video modes into our local buffer. We *must* copy this mode list, * since the VBE will build the mode list in the VBE_vgaInfo buffer * that we have passed, so the next call to the VBE will trash the * list of modes. */ printf("videomodeptr %x\n",vgaInfo.VideoModePtr); p1 = LfbMapRealPointer(vgaInfo.VideoModePtr); p2 = modeList; while (*p1 != -1) { printf("found mode %x\n",*p1); *p2++ = *p1++; } *p2 = -1; return vgaInfo.VESAVersion; } int VBE_getModeInfo(int mode,VBE_modeInfo *modeInfo) /**************************************************************************** * * Function: VBE_getModeInfo * Parameters: mode - VBE mode to get information for * modeInfo - Place to store VBE mode information * Returns: 1 on success, 0 if function failed. * * Description: Obtains information about a specific video mode from the * VBE. You should use this function to find the video mode * you wish to set, as the new VBE 2.0 mode numbers may be * completely arbitrary. * ****************************************************************************/ { RMREGS regs; regs.x.ax = 0x4F01; /* Get mode information */ regs.x.cx = mode; VBE_callESDI(®s, modeInfo, sizeof(VBE_modeInfo)); if (regs.x.ax != 0x004F) return 0; if ((modeInfo->ModeAttributes & vbeMdAvailable) == 0) return 0; return 1; } void VBE_setVideoMode(int mode) /**************************************************************************** * * Function: VBE_setVideoMode * Parameters: mode - VBE mode number to initialise * ****************************************************************************/ { RMREGS regs; regs.x.ax = 0x4F02; regs.x.bx = mode; DPMI_int86(0x10,®s,®s); } /*-------------------- Application specific routines ----------------------*/ void *GetPtrToLFB(long physAddr) /**************************************************************************** * * Function: GetPtrToLFB * Parameters: physAddr - Physical memory address of linear framebuffer * Returns: Far pointer to the linear framebuffer memory * ****************************************************************************/ { int sel; long linAddr,limit = (4096 * 1024) - 1; // sel = DPMI_allocSelector(); linAddr = DPMI_mapPhysicalToLinear(physAddr,limit); // DPMI_setSelectorBase(sel,linAddr); // DPMI_setSelectorLimit(sel,limit); // return MK_FP(sel,0); return (void*)linAddr; } void AvailableModes(void) /**************************************************************************** * * Function: AvailableModes * * Description: Display a list of available LFB mode resolutions. * ****************************************************************************/ { unsigned short *p; VBE_modeInfo modeInfo; printf("Usage: LFBPROF \n\n"); printf("Available 256 color video modes:\n"); for (p = modeList; *p != -1; p++) { if (VBE_getModeInfo(*p, &modeInfo)) { /* Filter out only 8 bit linear framebuffer modes */ if ((modeInfo.ModeAttributes & vbeMdLinear) == 0) continue; if (modeInfo.MemoryModel != vbeMemPK || modeInfo.BitsPerPixel != 8 || modeInfo.NumberOfPlanes != 1) continue; printf(" %4d x %4d %d bits per pixel\n", modeInfo.XResolution, modeInfo.YResolution, modeInfo.BitsPerPixel); } } exit(1); } void InitGraphics(int x,int y) /**************************************************************************** * * Function: InitGraphics * Parameters: x,y - Requested video mode resolution * * Description: Initialise the specified video mode. We search through * the list of available video modes for one that matches * the resolution and color depth are are looking for. * ****************************************************************************/ { unsigned short *p; VBE_modeInfo modeInfo; printf("InitGraphics\n"); for (p = modeList; *p != -1; p++) { if (VBE_getModeInfo(*p, &modeInfo)) { /* Filter out only 8 bit linear framebuffer modes */ if ((modeInfo.ModeAttributes & vbeMdLinear) == 0) continue; if (modeInfo.MemoryModel != vbeMemPK || modeInfo.BitsPerPixel != 8 || modeInfo.NumberOfPlanes != 1) continue; if (modeInfo.XResolution != x || modeInfo.YResolution != y) continue; xres = x; yres = y; bytesperline = modeInfo.BytesPerScanLine; imageSize = bytesperline * yres; VBE_setVideoMode(*p | vbeUseLFB); LFBPtr = GetPtrToLFB(modeInfo.PhysBasePtr); return; } } printf("Valid video mode not found\n"); exit(1); } void EndGraphics(void) /**************************************************************************** * * Function: EndGraphics * * Description: Restores text mode. * ****************************************************************************/ { RMREGS regs; printf("EndGraphics\n"); regs.x.ax = 0x3; DPMI_int86(0x10, ®s, ®s); } void ProfileMode(void) /**************************************************************************** * * Function: ProfileMode * * Description: Profiles framebuffer performance for simple screen clearing * and for copying from system memory to video memory (BitBlt). * This routine thrashes the CPU cache by cycling through * enough system memory buffers to invalidate the entire * CPU external cache before re-using the first memory buffer * again. * ****************************************************************************/ { int i,numClears,numBlts,maxImages; long startTicks,endTicks; void *image[10],*dst; printf("ProfileMode\n"); /* Profile screen clearing operation */ startTicks = LfbGetTicks(); numClears = 0; while ((LfbGetTicks() - startTicks) < 182) LfbMemset(LFBPtr,numClears++,imageSize); endTicks = LfbGetTicks(); clearsPerSec = numClears / ((endTicks - startTicks) * 0.054925); clearsMbPerSec = (clearsPerSec * imageSize) / 1048576.0; /* Profile system memory to video memory copies */ maxImages = ((512 * 1024U) / imageSize) + 2; for (i = 0; i < maxImages; i++) { image[i] = malloc(imageSize); if (image[i] == NULL) FatalError("Not enough memory to profile BitBlt!"); memset(image[i],i+1,imageSize); } startTicks = LfbGetTicks(); numBlts = 0; while ((LfbGetTicks() - startTicks) < 182) LfbMemcpy(LFBPtr,image[numBlts++ % maxImages],imageSize); endTicks = LfbGetTicks(); bitBltsPerSec = numBlts / ((endTicks - startTicks) * 0.054925); bitBltsMbPerSec = (bitBltsPerSec * imageSize) / 1048576.0; } void main(int argc, char *argv[]) { if (VBE_detect() < 0x200) FatalError("This program requires VBE 2.0; Please install UniVBE 5.1."); if (argc != 3) AvailableModes(); /* Display available modes */ InitGraphics(atoi(argv[1]),atoi(argv[2])); /* Start graphics */ ProfileMode(); /* Profile the video mode */ EndGraphics(); /* Restore text mode */ printf("Profiling results for %dx%d 8 bits per pixel.\n",xres,yres); printf("%3.2f clears/s, %2.2f Mb/s\n", clearsPerSec, clearsMbPerSec); printf("%3.2f bitBlt/s, %2.2f Mb/s\n", bitBltsPerSec, bitBltsMbPerSec); }