/* * scale.c - deal with server-side scaling. */ /* * Copyright (C) 2005 Rohit Kumar, Johannes E. Schindelin * Copyright (C) 2002 RealVNC Ltd. * OSXvnc Copyright (C) 2001 Dan McGuirk . * Original Xvnc code Copyright (C) 1999 AT&T Laboratories Cambridge. * All Rights Reserved. * * This is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * This software is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this software; if not, write to the Free Software * Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, * USA. */ #ifdef __STRICT_ANSI__ #define _BSD_SOURCE #endif #include #include #include #include "private.h" #ifdef LIBVNCSERVER_HAVE_FCNTL_H #include #endif #ifdef WIN32 #define write(sock,buf,len) send(sock,buf,len,0) #else #ifdef LIBVNCSERVER_HAVE_UNISTD_H #include #endif #include #ifdef LIBVNCSERVER_HAVE_SYS_SOCKET_H #include #endif #ifdef LIBVNCSERVER_HAVE_NETINET_IN_H #include #include #include #endif #endif #ifdef DEBUGPROTO #undef DEBUGPROTO #define DEBUGPROTO(x) x #else #define DEBUGPROTO(x) #endif /****************************/ #define CEIL(x) ( (double) ((int) (x)) == (x) ? \ (double) ((int) (x)) : (double) ((int) (x) + 1) ) #define FLOOR(x) ( (double) ((int) (x)) ) #ifdef WIN32 #define InlineX __inline #else # ifndef __STRICT_ANSI__ # define InlineX inline # else # define InlineX # endif #endif static InlineX int pad4(int value) { int remainder = value & 3; if (!remainder) return value; return value + 4 - remainder; } int ScaleX(rfbScreenInfoPtr from, rfbScreenInfoPtr to, int x) { if ((from==to) || (from==NULL) || (to==NULL)) return x; return ((int)(((double) x / (double)from->width) * (double)to->width )); } int ScaleY(rfbScreenInfoPtr from, rfbScreenInfoPtr to, int y) { if ((from==to) || (from==NULL) || (to==NULL)) return y; return ((int)(((double) y / (double)from->height) * (double)to->height )); } /* So, all of the encodings point to the ->screen->frameBuffer, * We need to change this! */ void rfbScaledCorrection(rfbScreenInfoPtr from, rfbScreenInfoPtr to, int *x, int *y, int *w, int *h, const char *function) { double x1,y1,w1,h1, x2, y2, w2, h2; double scaleW = ((double) to->width) / ((double) from->width); double scaleH = ((double) to->height) / ((double) from->height); /* * rfbLog("rfbScaledCorrection(%p -> %p, %dx%d->%dx%d (%dXx%dY-%dWx%dH)\n", * from, to, from->width, from->height, to->width, to->height, *x, *y, *w, *h); */ /* If it's the original framebuffer... */ if (from==to) return; x1 = ((double) *x) * scaleW; y1 = ((double) *y) * scaleH; w1 = ((double) *w) * scaleW; h1 = ((double) *h) * scaleH; /*cast from double to int is same as "*x = floor(x1);" */ x2 = FLOOR(x1); y2 = FLOOR(y1); /* include into W and H the jitter of scaling X and Y */ w2 = CEIL(w1 + ( x1 - x2 )); h2 = CEIL(h1 + ( y1 - y2 )); /* * rfbLog("%s (%dXx%dY-%dWx%dH -> %fXx%fY-%fWx%fH) {%dWx%dH -> %dWx%dH}\n", * function, *x, *y, *w, *h, x2, y2, w2, h2, * from->width, from->height, to->width, to->height); */ /* simulate ceil() without math library */ *x = (int)x2; *y = (int)y2; *w = (int)w2; *h = (int)h2; /* Small changes for a thumbnail may be scaled to zero */ if (*w==0) (*w)++; if (*h==0) (*h)++; /* scaling from small to big may overstep the size a bit */ if (*x+*w > to->width) *w=to->width - *x; if (*y+*h > to->height) *h=to->height - *y; } void rfbScaledScreenUpdateRect(rfbScreenInfoPtr screen, rfbScreenInfoPtr ptr, int x0, int y0, int w0, int h0) { int x,y,w,v,z; int x1, y1, w1, h1; int bitsPerPixel, bytesPerPixel, bytesPerLine, areaX, areaY, area2; unsigned char *srcptr, *dstptr; /* Nothing to do!!! */ if (screen==ptr) return; x1 = x0; y1 = y0; w1 = w0; h1 = h0; rfbScaledCorrection(screen, ptr, &x1, &y1, &w1, &h1, "rfbScaledScreenUpdateRect"); x0 = ScaleX(ptr, screen, x1); y0 = ScaleY(ptr, screen, y1); w0 = ScaleX(ptr, screen, w1); h0 = ScaleY(ptr, screen, h1); bitsPerPixel = screen->bitsPerPixel; bytesPerPixel = bitsPerPixel / 8; bytesPerLine = w1 * bytesPerPixel; srcptr = (unsigned char *)(screen->frameBuffer + (y0 * screen->paddedWidthInBytes + x0 * bytesPerPixel)); dstptr = (unsigned char *)(ptr->frameBuffer + ( y1 * ptr->paddedWidthInBytes + x1 * bytesPerPixel)); /* The area of the source framebuffer for each destination pixel */ areaX = ScaleX(ptr,screen,1); areaY = ScaleY(ptr,screen,1); area2 = areaX*areaY; /* Ensure that we do not go out of bounds */ if ((x1+w1) > (ptr->width)) { if (x1==0) w1=ptr->width; else x1 = ptr->width - w1; } if ((y1+h1) > (ptr->height)) { if (y1==0) h1=ptr->height; else y1 = ptr->height - h1; } /* * rfbLog("rfbScaledScreenUpdateRect(%dXx%dY-%dWx%dH -> %dXx%dY-%dWx%dH <%dx%d>) {%dWx%dH -> %dWx%dH} 0x%p\n", * x0, y0, w0, h0, x1, y1, w1, h1, areaX, areaY, * screen->width, screen->height, ptr->width, ptr->height, ptr->frameBuffer); */ if (screen->serverFormat.trueColour) { /* Blend neighbouring pixels together */ unsigned char *srcptr2; unsigned long pixel_value, red, green, blue; unsigned int redShift = screen->serverFormat.redShift; unsigned int greenShift = screen->serverFormat.greenShift; unsigned int blueShift = screen->serverFormat.blueShift; unsigned long redMax = screen->serverFormat.redMax; unsigned long greenMax = screen->serverFormat.greenMax; unsigned long blueMax = screen->serverFormat.blueMax; /* for each *destination* pixel... */ for (y = 0; y < h1; y++) { for (x = 0; x < w1; x++) { red = green = blue = 0; /* Get the totals for rgb from the source grid... */ for (w = 0; w < areaX; w++) { for (v = 0; v < areaY; v++) { srcptr2 = &srcptr[(((x * areaX) + w) * bytesPerPixel) + (v * screen->paddedWidthInBytes)]; pixel_value = 0; switch (bytesPerPixel) { case 4: pixel_value = *((unsigned int *)srcptr2); break; case 2: pixel_value = *((unsigned short *)srcptr2); break; case 1: pixel_value = *((unsigned char *)srcptr2); break; default: /* fixme: endianness problem? */ for (z = 0; z < bytesPerPixel; z++) pixel_value += (srcptr2[z] << (8 * z)); break; } /* srcptr2 += bytesPerPixel; */ red += ((pixel_value >> redShift) & redMax); green += ((pixel_value >> greenShift) & greenMax); blue += ((pixel_value >> blueShift) & blueMax); } } /* We now have a total for all of the colors, find the average! */ red /= area2; green /= area2; blue /= area2; /* Stuff the new value back into memory */ pixel_value = ((red & redMax) << redShift) | ((green & greenMax) << greenShift) | ((blue & blueMax) << blueShift); switch (bytesPerPixel) { case 4: *((unsigned int *)dstptr) = (unsigned int) pixel_value; break; case 2: *((unsigned short *)dstptr) = (unsigned short) pixel_value; break; case 1: *((unsigned char *)dstptr) = (unsigned char) pixel_value; break; default: /* fixme: endianness problem? */ for (z = 0; z < bytesPerPixel; z++) dstptr[z]=(pixel_value >> (8 * z)) & 0xff; break; } dstptr += bytesPerPixel; } srcptr += (screen->paddedWidthInBytes * areaY); dstptr += (ptr->paddedWidthInBytes - bytesPerLine); } } else { /* Not truecolour, so we can't blend. Just use the top-left pixel instead */ for (y = y1; y < (y1+h1); y++) { for (x = x1; x < (x1+w1); x++) memcpy (&ptr->frameBuffer[(y *ptr->paddedWidthInBytes) + (x * bytesPerPixel)], &screen->frameBuffer[(y * areaY * screen->paddedWidthInBytes) + (x *areaX * bytesPerPixel)], bytesPerPixel); } } } void rfbScaledScreenUpdate(rfbScreenInfoPtr screen, int x1, int y1, int x2, int y2) { /* ok, now the task is to update each and every scaled version of the framebuffer * and we only have to do this for this specific changed rectangle! */ rfbScreenInfoPtr ptr; int count=0; /* We don't point to cl->screen as it is the original */ for (ptr=screen->scaledScreenNext;ptr!=NULL;ptr=ptr->scaledScreenNext) { /* Only update if it has active clients... */ if (ptr->scaledScreenRefCount>0) { rfbScaledScreenUpdateRect(screen, ptr, x1, y1, x2-x1, y2-y1); count++; } } } /* Create a new scaled version of the framebuffer */ rfbScreenInfoPtr rfbScaledScreenAllocate(rfbClientPtr cl, int width, int height) { rfbScreenInfoPtr ptr; ptr = malloc(sizeof(rfbScreenInfo)); if (ptr!=NULL) { int allocSize; /* copy *everything* (we don't use most of it, but just in case) */ memcpy(ptr, cl->screen, sizeof(rfbScreenInfo)); /* SECURITY: make sure that no integer overflow will occur afterwards. * Note: this is defensive coding, as the check should have already been * performed during initial, non-scaled screen setup. */ allocSize = pad4(width * (ptr->bitsPerPixel/8)); /* per protocol, width<2**16 and bpp<256 */ if (height == 0 || allocSize >= SIZE_MAX / height) { free(ptr); return NULL; /* malloc() will allocate an incorrect buffer size - early abort */ } /* Resume copy everything */ ptr->width = width; ptr->height = height; ptr->paddedWidthInBytes = (ptr->bitsPerPixel/8)*ptr->width; /* Need to by multiples of 4 for Sparc systems */ ptr->paddedWidthInBytes = pad4(ptr->paddedWidthInBytes); /* Reset the reference count to 0! */ ptr->scaledScreenRefCount = 0; ptr->sizeInBytes = ptr->paddedWidthInBytes * ptr->height; ptr->serverFormat = cl->screen->serverFormat; ptr->frameBuffer = malloc(ptr->sizeInBytes); if (ptr->frameBuffer!=NULL) { /* Reset to a known condition: scale the entire framebuffer */ rfbScaledScreenUpdateRect(cl->screen, ptr, 0, 0, cl->screen->width, cl->screen->height); /* Now, insert into the chain */ LOCK(cl->updateMutex); ptr->scaledScreenNext = cl->screen->scaledScreenNext; cl->screen->scaledScreenNext = ptr; UNLOCK(cl->updateMutex); } else { /* Failed to malloc the new frameBuffer, cleanup */ free(ptr); ptr=NULL; } } return ptr; } /* Find an active scaled version of the framebuffer * TODO: implement a refcount per scaled screen to prevent * unreferenced scaled screens from hanging around */ rfbScreenInfoPtr rfbScalingFind(rfbClientPtr cl, int width, int height) { rfbScreenInfoPtr ptr; /* include the original in the search (ie: fine 1:1 scaled version of the frameBuffer) */ for (ptr=cl->screen; ptr!=NULL; ptr=ptr->scaledScreenNext) { if ((ptr->width==width) && (ptr->height==height)) return ptr; } return NULL; } /* Future needs "scale to 320x240, as that's the client's screen size */ void rfbScalingSetup(rfbClientPtr cl, int width, int height) { rfbScreenInfoPtr ptr; ptr = rfbScalingFind(cl,width,height); if (ptr==NULL) ptr = rfbScaledScreenAllocate(cl,width,height); /* Now, there is a new screen available (if ptr is not NULL) */ if (ptr!=NULL) { /* Update it! */ if (ptr->scaledScreenRefCount<1) rfbScaledScreenUpdateRect(cl->screen, ptr, 0, 0, cl->screen->width, cl->screen->height); /* * rfbLog("Taking one from %dx%d-%d and adding it to %dx%d-%d\n", * cl->scaledScreen->width, cl->scaledScreen->height, * cl->scaledScreen->scaledScreenRefCount, * ptr->width, ptr->height, ptr->scaledScreenRefCount); */ LOCK(cl->updateMutex); cl->scaledScreen->scaledScreenRefCount--; ptr->scaledScreenRefCount++; cl->scaledScreen=ptr; cl->newFBSizePending = TRUE; UNLOCK(cl->updateMutex); rfbLog("Scaling to %dx%d (refcount=%d)\n",width,height,ptr->scaledScreenRefCount); } else rfbLog("Scaling to %dx%d failed, leaving things alone\n",width,height); } int rfbSendNewScaleSize(rfbClientPtr cl) { /* if the client supports newFBsize Encoding, use it */ if (cl->useNewFBSize && cl->newFBSizePending) return FALSE; LOCK(cl->updateMutex); cl->newFBSizePending = FALSE; UNLOCK(cl->updateMutex); if (cl->PalmVNC==TRUE) { rfbPalmVNCReSizeFrameBufferMsg pmsg; pmsg.type = rfbPalmVNCReSizeFrameBuffer; pmsg.pad1 = 0; pmsg.desktop_w = Swap16IfLE(cl->screen->width); pmsg.desktop_h = Swap16IfLE(cl->screen->height); pmsg.buffer_w = Swap16IfLE(cl->scaledScreen->width); pmsg.buffer_h = Swap16IfLE(cl->scaledScreen->height); pmsg.pad2 = 0; rfbLog("Sending a response to a PalmVNC style frameuffer resize event (%dx%d)\n", cl->scaledScreen->width, cl->scaledScreen->height); if (rfbWriteExact(cl, (char *)&pmsg, sz_rfbPalmVNCReSizeFrameBufferMsg) < 0) { rfbLogPerror("rfbNewClient: write"); rfbCloseClient(cl); return FALSE; } } else { rfbResizeFrameBufferMsg rmsg; rmsg.type = rfbResizeFrameBuffer; rmsg.pad1=0; rmsg.framebufferWidth = Swap16IfLE(cl->scaledScreen->width); rmsg.framebufferHeigth = Swap16IfLE(cl->scaledScreen->height); rfbLog("Sending a response to a UltraVNC style frameuffer resize event (%dx%d)\n", cl->scaledScreen->width, cl->scaledScreen->height); if (rfbWriteExact(cl, (char *)&rmsg, sz_rfbResizeFrameBufferMsg) < 0) { rfbLogPerror("rfbNewClient: write"); rfbCloseClient(cl); return FALSE; } } return TRUE; } /****************************/