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[/] [or1k/] [tags/] [MW_0_8_9PRE7/] [mw/] [src/] [demos/] [vnc/] [vncviewer/] [rfbproto.c] - Rev 1765
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/* * Copyright (C) 1997, 1998 Olivetti & Oracle Research Laboratory * * 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. */ /* * rfbproto.c - functions to deal with client side of RFB protocol. */ #include <unistd.h> #include <errno.h> #include <pwd.h> #include <vncviewer.h> #ifndef NANOX #include <X11/Xatom.h> #endif #include <vncauth.h> static Bool HandleHextileEncoding8(int x, int y, int w, int h); static Bool HandleHextileEncoding16(int x, int y, int w, int h); static Bool HandleHextileEncoding32(int x, int y, int w, int h); int rfbsock; char *desktopName; rfbPixelFormat myFormat; rfbServerInitMsg si; struct timeval updateRequestTime; Bool sendUpdateRequest; int endianTest = 1; /* note that the CoRRE encoding uses this buffer and assumes it is big enough to hold 255 * 255 * 32 bits -> 260100 bytes. 640*480 = 307200 bytes */ /* also hextile assumes it is big enough to hold 16 * 16 * 32 bits */ #define BUFFER_SIZE (640*480) static char buffer[BUFFER_SIZE]; void PrintPixelFormat(rfbPixelFormat *format); /* * ConnectToRFBServer. */ Bool ConnectToRFBServer(const char *hostname, int port) { unsigned int host; if (!StringToIPAddr(hostname, &host)) { fprintf(stderr,"%s: couldn't convert '%s' to host address\n", programName,hostname); return False; } rfbsock = ConnectToTcpAddr(host, port); if (rfbsock < 0) { fprintf(stderr,"%s: unable to connect to VNC server\n", programName); return False; } return True; } /* * InitialiseRFBConnection. */ Bool InitialiseRFBConnection(int sock) { rfbProtocolVersionMsg pv; int major,minor; Bool authWillWork = True; CARD32 authScheme, reasonLen, authResult; char *reason; CARD8 challenge[CHALLENGESIZE]; char *passwd; int i; rfbClientInitMsg ci; /* if the connection is immediately closed, don't report anything, so that pmw's monitor can make test connections */ if (listenSpecified) errorMessageFromReadExact = False; if (!ReadExact(sock, pv, sz_rfbProtocolVersionMsg)) return False; errorMessageFromReadExact = True; pv[sz_rfbProtocolVersionMsg] = 0; if (sscanf(pv,rfbProtocolVersionFormat,&major,&minor) != 2) { fprintf(stderr,"%s: Not a valid VNC server\n",programName); return False; } fprintf(stderr,"%s: VNC server supports protocol version %d.%d " "(viewer %d.%d)\n", programName,major,minor,rfbProtocolMajorVersion, rfbProtocolMinorVersion); if ((major == 3) && (minor < 3)) { /* if server is before 3.3 authentication won't work */ authWillWork = False; } else { /* any other server version, just tell it what we want */ major = rfbProtocolMajorVersion; minor = rfbProtocolMinorVersion; } sprintf(pv,rfbProtocolVersionFormat,major,minor); if (!WriteExact(sock, pv, sz_rfbProtocolVersionMsg)) return False; if (!ReadExact(sock, (char *)&authScheme, 4)) return False; authScheme = Swap32IfLE(authScheme); switch (authScheme) { case rfbConnFailed: if (!ReadExact(sock, (char *)&reasonLen, 4)) return False; reasonLen = Swap32IfLE(reasonLen); reason = malloc(reasonLen); if (!ReadExact(sock, reason, reasonLen)) return False; fprintf(stderr,"%s: VNC connection failed: %.*s\n", programName, (int)reasonLen, reason); return False; case rfbNoAuth: fprintf(stderr,"%s: No authentication needed\n",programName); break; case rfbVncAuth: if (!authWillWork) { fprintf(stderr, "\n%s: VNC server uses the old authentication scheme.\n" "You should kill your old desktop(s) and restart.\n" "If you really need to connect to this desktop use " "vncviewer3.2\n\n", programName); return False; } if (!ReadExact(sock, (char *)challenge, CHALLENGESIZE)) return False; if (passwdFile) { passwd = vncDecryptPasswdFromFile(passwdFile); } else { static char pass[32] = {"foobar2"}; passwd = pass; //passwd = getpass("Password: "); if (strlen(passwd) == 0) { fprintf(stderr,"%s: Reading password failed\n",programName); return False; } if (strlen(passwd) > 8) { passwd[8] = '\0'; } } vncEncryptBytes(challenge, passwd); /* Lose the password from memory */ for (i=0; i<strlen(passwd); i++) { passwd[i] = '\0'; } if (!WriteExact(sock, challenge, CHALLENGESIZE)) return False; if (!ReadExact(sock, (char *)&authResult, 4)) return False; authResult = Swap32IfLE(authResult); switch (authResult) { case rfbVncAuthOK: fprintf(stderr,"%s: VNC authentication succeeded\n",programName); break; case rfbVncAuthFailed: fprintf(stderr,"%s: VNC authentication failed\n",programName); return False; case rfbVncAuthTooMany: fprintf(stderr,"%s: VNC authentication failed - too many tries\n", programName); return False; default: fprintf(stderr,"%s: Unknown VNC authentication result: %d\n", programName,(int)authResult); return False; } break; default: fprintf(stderr, "%s: Unknown authentication scheme from VNC server: %d\n", programName,(int)authScheme); return False; } ci.shared = (shareDesktop ? 1 : 0); if (!WriteExact(sock, (char *)&ci, sz_rfbClientInitMsg)) return False; if (!ReadExact(sock, (char *)&si, sz_rfbServerInitMsg)) return False; si.framebufferWidth = Swap16IfLE(si.framebufferWidth); si.framebufferHeight = Swap16IfLE(si.framebufferHeight); si.format.redMax = Swap16IfLE(si.format.redMax); si.format.greenMax = Swap16IfLE(si.format.greenMax); si.format.blueMax = Swap16IfLE(si.format.blueMax); si.nameLength = Swap32IfLE(si.nameLength); if (((updateRequestX + updateRequestW) > si.framebufferWidth) || ((updateRequestY + updateRequestH) > si.framebufferHeight)) { fprintf(stderr, "%s: region requested is outside server's framebuffer\n", programName); return False; } if (updateRequestW == 0) updateRequestW = si.framebufferWidth - updateRequestX; if (updateRequestH == 0) updateRequestH = si.framebufferHeight - updateRequestY; desktopName = malloc(si.nameLength + 1); if (!ReadExact(sock, desktopName, si.nameLength)) return False; desktopName[si.nameLength] = 0; fprintf(stderr,"%s: Desktop name \"%s\"\n",programName,desktopName); fprintf(stderr, "%s: Connected to VNC server, using protocol version %d.%d\n", programName, rfbProtocolMajorVersion, rfbProtocolMinorVersion); fprintf(stderr,"%s: VNC server default format:\n",programName); PrintPixelFormat(&si.format); return True; } /* * SetFormatAndEncodings. */ Bool SetFormatAndEncodings() { rfbSetPixelFormatMsg spf; char buf[sz_rfbSetEncodingsMsg + MAX_ENCODINGS * 4]; rfbSetEncodingsMsg *se = (rfbSetEncodingsMsg *)buf; CARD32 *encs = (CARD32 *)(&buf[sz_rfbSetEncodingsMsg]); int len = 0; int i; spf.type = rfbSetPixelFormat; spf.format = myFormat; spf.format.redMax = Swap16IfLE(spf.format.redMax); spf.format.greenMax = Swap16IfLE(spf.format.greenMax); spf.format.blueMax = Swap16IfLE(spf.format.blueMax); if (!WriteExact(rfbsock, (char *)&spf, sz_rfbSetPixelFormatMsg)) return False; se->type = rfbSetEncodings; se->nEncodings = 0; for (i = 0; i < nExplicitEncodings; i++) { encs[se->nEncodings++] = Swap32IfLE(explicitEncodings[i]); } if (SameMachine(rfbsock)) { encs[se->nEncodings++] = Swap32IfLE(rfbEncodingRaw); } if (addCopyRect) encs[se->nEncodings++] = Swap32IfLE(rfbEncodingCopyRect); if (addHextile) encs[se->nEncodings++] = Swap32IfLE(rfbEncodingHextile); if (addCoRRE) encs[se->nEncodings++] = Swap32IfLE(rfbEncodingCoRRE); if (addRRE) encs[se->nEncodings++] = Swap32IfLE(rfbEncodingRRE); len = sz_rfbSetEncodingsMsg + se->nEncodings * 4; se->nEncodings = Swap16IfLE(se->nEncodings); if (!WriteExact(rfbsock, buf, len)) return False; return True; } /* * SendIncrementalFramebufferUpdateRequest. */ Bool SendIncrementalFramebufferUpdateRequest() { return SendFramebufferUpdateRequest(updateRequestX, updateRequestY, updateRequestW, updateRequestH, True); } /* * SendFramebufferUpdateRequest. */ Bool SendFramebufferUpdateRequest(int x, int y, int w, int h, Bool incremental) { rfbFramebufferUpdateRequestMsg fur; fur.type = rfbFramebufferUpdateRequest; fur.incremental = incremental ? 1 : 0; fur.x = Swap16IfLE(x); fur.y = Swap16IfLE(y); fur.w = Swap16IfLE(w); fur.h = Swap16IfLE(h); if (!WriteExact(rfbsock, (char *)&fur, sz_rfbFramebufferUpdateRequestMsg)) return False; gettimeofday(&updateRequestTime, NULL); sendUpdateRequest = False; return True; } /* * SendPointerEvent. */ Bool SendPointerEvent(int x, int y, int buttonMask) { rfbPointerEventMsg pe; pe.type = rfbPointerEvent; pe.buttonMask = buttonMask; if (x < 0) x = 0; if (y < 0) y = 0; pe.x = Swap16IfLE(x); pe.y = Swap16IfLE(y); return WriteExact(rfbsock, (char *)&pe, sz_rfbPointerEventMsg); } /* * SendKeyEvent. */ Bool SendKeyEvent(CARD32 key, Bool down) { rfbKeyEventMsg ke; ke.type = rfbKeyEvent; ke.down = down ? 1 : 0; ke.key = Swap32IfLE(key); return WriteExact(rfbsock, (char *)&ke, sz_rfbKeyEventMsg); } /* * SendClientCutText. */ Bool SendClientCutText(char *str, int len) { rfbClientCutTextMsg cct; cct.type = rfbClientCutText; cct.length = Swap32IfLE(len); return (WriteExact(rfbsock, (char *)&cct, sz_rfbClientCutTextMsg) && WriteExact(rfbsock, str, len)); } /* * HandleRFBServerMessage. */ Bool HandleRFBServerMessage() { rfbServerToClientMsg msg; if (!ReadExact(rfbsock, (char *)&msg, 1)) return False; switch (msg.type) { case rfbSetColourMapEntries: { int i; CARD16 rgb[3]; XColor xc; if (!ReadExact(rfbsock, ((char *)&msg) + 1, sz_rfbSetColourMapEntriesMsg - 1)) return False; msg.scme.firstColour = Swap16IfLE(msg.scme.firstColour); msg.scme.nColours = Swap16IfLE(msg.scme.nColours); for (i = 0; i < msg.scme.nColours; i++) { if (!ReadExact(rfbsock, (char *)rgb, 6)) return False; xc.pixel = msg.scme.firstColour + i; xc.red = Swap16IfLE(rgb[0]); xc.green = Swap16IfLE(rgb[1]); xc.blue = Swap16IfLE(rgb[2]); xc.flags = DoRed|DoGreen|DoBlue; //printf("XStoreColor (%d,%d,%d) = %d\n", xc.red>>8, xc.green>>8, xc.blue>>8, xc.pixel); XStoreColor(dpy, cmap, &xc); } break; } case rfbFramebufferUpdate: { rfbFramebufferUpdateRectHeader rect; int linesToRead; int bytesPerLine; int i; if (!ReadExact(rfbsock, ((char *)&msg.fu) + 1, sz_rfbFramebufferUpdateMsg - 1)) return False; msg.fu.nRects = Swap16IfLE(msg.fu.nRects); for (i = 0; i < msg.fu.nRects; i++) { if (!ReadExact(rfbsock, (char *)&rect, sz_rfbFramebufferUpdateRectHeader)) return False; rect.r.x = Swap16IfLE(rect.r.x); rect.r.y = Swap16IfLE(rect.r.y); rect.r.w = Swap16IfLE(rect.r.w); rect.r.h = Swap16IfLE(rect.r.h); rect.encoding = Swap32IfLE(rect.encoding); if ((rect.r.x + rect.r.w > si.framebufferWidth) || (rect.r.y + rect.r.h > si.framebufferHeight)) { fprintf(stderr,"%s: rect too large: %dx%d at (%d, %d)\n", programName, rect.r.w, rect.r.h, rect.r.x, rect.r.y); return False; } if ((rect.r.h * rect.r.w) == 0) { fprintf(stderr,"%s: zero size rect - ignoring\n",programName); continue; } switch (rect.encoding) { case rfbEncodingRaw: bytesPerLine = rect.r.w * myFormat.bitsPerPixel / 8; linesToRead = BUFFER_SIZE / bytesPerLine; while (rect.r.h > 0) { if (linesToRead > rect.r.h) linesToRead = rect.r.h; if (!ReadExact(rfbsock, buffer,bytesPerLine * linesToRead)) return False; CopyDataToScreen((CARD8 *)buffer, rect.r.x, rect.r.y, rect.r.w, linesToRead); rect.r.h -= linesToRead; rect.r.y += linesToRead; } break; case rfbEncodingCopyRect: { rfbCopyRect cr; if (!ReadExact(rfbsock, (char *)&cr, sz_rfbCopyRect)) return False; cr.srcX = Swap16IfLE(cr.srcX); cr.srcY = Swap16IfLE(cr.srcY); if (copyRectDelay != 0) { XFillRectangle(dpy, canvas, srcGC, cr.srcX, cr.srcY, rect.r.w, rect.r.h); XFillRectangle(dpy, canvas, dstGC, rect.r.x, rect.r.y, rect.r.w, rect.r.h); XSync(dpy,False); usleep(copyRectDelay * 1000); XFillRectangle(dpy, canvas, dstGC, rect.r.x, rect.r.y, rect.r.w, rect.r.h); XFillRectangle(dpy, canvas, srcGC, cr.srcX, cr.srcY, rect.r.w, rect.r.h); } XCopyArea(dpy, canvas, canvas, gc, cr.srcX, cr.srcY, rect.r.w, rect.r.h, rect.r.x, rect.r.y); break; } case rfbEncodingRRE: { rfbRREHeader hdr; CARD8 pix8; CARD16 pix16; CARD32 pix32; XGCValues gcv; rfbRectangle subrect; int j; if (!ReadExact(rfbsock, (char *)&hdr, sz_rfbRREHeader)) return False; hdr.nSubrects = Swap32IfLE(hdr.nSubrects); switch (myFormat.bitsPerPixel) { case 8: if (!ReadExact(rfbsock, (char *)&pix8, 1)) return False; gcv.foreground = (useBGR233 ? BGR233ToPixel[pix8] : pix8); XChangeGC(dpy, gc, GCForeground, &gcv); XFillRectangle(dpy, canvas, gc, rect.r.x, rect.r.y, rect.r.w, rect.r.h); for (j = 0; j < hdr.nSubrects; j++) { if (!ReadExact(rfbsock, (char *)&pix8, 1)) return False; if (!ReadExact(rfbsock, (char *)&subrect, sz_rfbRectangle)) return False; subrect.x = Swap16IfLE(subrect.x); subrect.y = Swap16IfLE(subrect.y); subrect.w = Swap16IfLE(subrect.w); subrect.h = Swap16IfLE(subrect.h); gcv.foreground = (useBGR233 ? BGR233ToPixel[pix8] : pix8); XChangeGC(dpy, gc, GCForeground, &gcv); XFillRectangle(dpy, canvas, gc, rect.r.x + subrect.x, rect.r.y + subrect.y, subrect.w, subrect.h); } break; case 16: if (!ReadExact(rfbsock, (char *)&pix16, 2)) return False; gcv.foreground = pix16; XChangeGC(dpy, gc, GCForeground, &gcv); XFillRectangle(dpy, canvas, gc, rect.r.x, rect.r.y, rect.r.w, rect.r.h); for (j = 0; j < hdr.nSubrects; j++) { if (!ReadExact(rfbsock, (char *)&pix16, 2)) return False; if (!ReadExact(rfbsock, (char *)&subrect, sz_rfbRectangle)) return False; subrect.x = Swap16IfLE(subrect.x); subrect.y = Swap16IfLE(subrect.y); subrect.w = Swap16IfLE(subrect.w); subrect.h = Swap16IfLE(subrect.h); gcv.foreground = pix16; XChangeGC(dpy, gc, GCForeground, &gcv); XFillRectangle(dpy, canvas, gc, rect.r.x + subrect.x, rect.r.y + subrect.y, subrect.w, subrect.h); } break; case 32: if (!ReadExact(rfbsock, (char *)&pix32, 4)) return False; gcv.foreground = pix32; XChangeGC(dpy, gc, GCForeground, &gcv); XFillRectangle(dpy, canvas, gc, rect.r.x, rect.r.y, rect.r.w, rect.r.h); for (j = 0; j < hdr.nSubrects; j++) { if (!ReadExact(rfbsock, (char *)&pix32, 4)) return False; if (!ReadExact(rfbsock, (char *)&subrect, sz_rfbRectangle)) return False; subrect.x = Swap16IfLE(subrect.x); subrect.y = Swap16IfLE(subrect.y); subrect.w = Swap16IfLE(subrect.w); subrect.h = Swap16IfLE(subrect.h); gcv.foreground = pix32; XChangeGC(dpy, gc, GCForeground, &gcv); XFillRectangle(dpy, canvas, gc, rect.r.x + subrect.x, rect.r.y + subrect.y, subrect.w, subrect.h); } break; } break; } case rfbEncodingCoRRE: { rfbRREHeader hdr; CARD8 pix8; CARD16 pix16; CARD32 pix32; XGCValues gcv; int j; CARD8 *ptr; register int x, y, w, h; if (!ReadExact(rfbsock, (char *)&hdr, sz_rfbRREHeader)) return False; hdr.nSubrects = Swap32IfLE(hdr.nSubrects); switch (myFormat.bitsPerPixel) { case 8: if (!ReadExact(rfbsock, (char *)&pix8, 1)) return False; gcv.foreground = (useBGR233 ? BGR233ToPixel[pix8] : pix8); XChangeGC(dpy, gc, GCForeground, &gcv); XFillRectangle(dpy, canvas, gc, rect.r.x, rect.r.y, rect.r.w, rect.r.h); if (!ReadExact(rfbsock, buffer, hdr.nSubrects * 5)) return False; ptr = (CARD8 *)buffer; for (j = 0; j < hdr.nSubrects; j++) { pix8 = *ptr++; x = *ptr++; y = *ptr++; w = *ptr++; h = *ptr++; gcv.foreground = (useBGR233 ? BGR233ToPixel[pix8] : pix8); XChangeGC(dpy, gc, GCForeground, &gcv); XFillRectangle(dpy, canvas, gc, rect.r.x + x, rect.r.y + y, w, h); } break; case 16: if (!ReadExact(rfbsock, (char *)&pix16, 2)) return False; gcv.foreground = pix16; XChangeGC(dpy, gc, GCForeground, &gcv); XFillRectangle(dpy, canvas, gc, rect.r.x, rect.r.y, rect.r.w, rect.r.h); if (!ReadExact(rfbsock, buffer, hdr.nSubrects * 6)) return False; ptr = (CARD8 *)buffer; for (j = 0; j < hdr.nSubrects; j++) { pix16 = *(CARD16 *)ptr; ptr += 2; x = *ptr++; y = *ptr++; w = *ptr++; h = *ptr++; gcv.foreground = pix16; XChangeGC(dpy, gc, GCForeground, &gcv); XFillRectangle(dpy, canvas, gc, rect.r.x + x, rect.r.y + y, w, h); } break; case 32: if (!ReadExact(rfbsock, (char *)&pix32, 4)) return False; gcv.foreground = pix32; XChangeGC(dpy, gc, GCForeground, &gcv); XFillRectangle(dpy, canvas, gc, rect.r.x, rect.r.y, rect.r.w, rect.r.h); if (!ReadExact(rfbsock, buffer, hdr.nSubrects * 8)) return False; ptr = (CARD8 *)buffer; for (j = 0; j < hdr.nSubrects; j++) { pix32 = *(CARD32 *)ptr; ptr += 4; x = *ptr++; y = *ptr++; w = *ptr++; h = *ptr++; gcv.foreground = pix32; XChangeGC(dpy, gc, GCForeground, &gcv); XFillRectangle(dpy, canvas, gc, rect.r.x + x, rect.r.y + y, w, h); } break; } break; } case rfbEncodingHextile: { switch (myFormat.bitsPerPixel) { case 8: if (!HandleHextileEncoding8(rect.r.x, rect.r.y, rect.r.w, rect.r.h)) return False; break; case 16: if (!HandleHextileEncoding16(rect.r.x, rect.r.y, rect.r.w, rect.r.h)) return False; break; case 32: if (!HandleHextileEncoding32(rect.r.x, rect.r.y, rect.r.w, rect.r.h)) return False; break; } break; } default: fprintf(stderr,"%s: unknown rect encoding %d\n",programName, (int)rect.encoding); return False; } } sendUpdateRequest = True; break; } case rfbBell: XBell(dpy,100); break; case rfbServerCutText: { #ifndef NANOX char *str; if (!ReadExact(rfbsock, ((char *)&msg) + 1, sz_rfbServerCutTextMsg - 1)) return False; msg.sct.length = Swap32IfLE(msg.sct.length); str = malloc(msg.sct.length); if (!ReadExact(rfbsock, str, msg.sct.length)) return False; XSelectInput(dpy, DefaultRootWindow(dpy), 0); XStoreBytes(dpy, str, msg.sct.length); XSetSelectionOwner(dpy, XA_PRIMARY, None, CurrentTime); XSelectInput(dpy, DefaultRootWindow(dpy), PropertyChangeMask); free(str); #endif /* !NANOX*/ break; } default: fprintf(stderr,"%s: unknown message type %d from VNC server\n", programName,msg.type); return False; } return True; } #define GET_PIXEL8(pix, ptr) ((pix) = *(ptr)++) #define GET_PIXEL16(pix, ptr) (((CARD8*)&(pix))[0] = *(ptr)++, \ ((CARD8*)&(pix))[1] = *(ptr)++) #define GET_PIXEL32(pix, ptr) (((CARD8*)&(pix))[0] = *(ptr)++, \ ((CARD8*)&(pix))[1] = *(ptr)++, \ ((CARD8*)&(pix))[2] = *(ptr)++, \ ((CARD8*)&(pix))[3] = *(ptr)++) #define DEFINE_HEXTILE(bpp) \ static Bool \ HandleHextileEncoding##bpp(int rx, int ry, int rw, int rh) \ { \ CARD##bpp bg, fg; \ XGCValues gcv; \ int i; \ CARD8 *ptr; \ int x, y, w, h; \ int sx, sy, sw, sh; \ CARD8 subencoding; \ CARD8 nSubrects; \ \ for (y = ry; y < ry+rh; y += 16) { \ for (x = rx; x < rx+rw; x += 16) { \ w = h = 16; \ if (rx+rw - x < 16) \ w = rx+rw - x; \ if (ry+rh - y < 16) \ h = ry+rh - y; \ \ if (!ReadExact(rfbsock, (char *)&subencoding, 1)) \ return False; \ \ if (subencoding & rfbHextileRaw) { \ if (!ReadExact(rfbsock, buffer, w * h * (bpp / 8))) \ return False; \ \ CopyDataToScreen((CARD8 *)buffer, x, y, w, h); \ continue; \ } \ \ if (subencoding & rfbHextileBackgroundSpecified) \ if (!ReadExact(rfbsock, (char *)&bg, (bpp/8))) \ return False; \ \ if ((bpp == 8) && useBGR233) \ gcv.foreground = BGR233ToPixel[bg]; \ else \ gcv.foreground = bg; \ \ XChangeGC(dpy, gc, GCForeground, &gcv); \ XFillRectangle(dpy, canvas, gc, x, y, w, h); \ \ if (subencoding & rfbHextileForegroundSpecified) \ if (!ReadExact(rfbsock, (char *)&fg, (bpp/8))) \ return False; \ \ if (!(subencoding & rfbHextileAnySubrects)) { \ continue; \ } \ \ if (!ReadExact(rfbsock, (char *)&nSubrects, 1)) \ return False; \ \ ptr = (CARD8 *)buffer; \ \ if (subencoding & rfbHextileSubrectsColoured) { \ if (!ReadExact(rfbsock, buffer, nSubrects * (2 + (bpp / 8)))) \ return False; \ \ for (i = 0; i < nSubrects; i++) { \ GET_PIXEL##bpp(fg, ptr); \ sx = rfbHextileExtractX(*ptr); \ sy = rfbHextileExtractY(*ptr); \ ptr++; \ sw = rfbHextileExtractW(*ptr); \ sh = rfbHextileExtractH(*ptr); \ ptr++; \ if ((bpp == 8) && useBGR233) \ gcv.foreground = BGR233ToPixel[fg]; \ else \ gcv.foreground = fg; \ \ XChangeGC(dpy, gc, GCForeground, &gcv); \ XFillRectangle(dpy, canvas, gc, x+sx, y+sy, sw, sh); \ } \ \ } else { \ if (!ReadExact(rfbsock, buffer, nSubrects * 2)) \ return False; \ \ if ((bpp == 8) && useBGR233) \ gcv.foreground = BGR233ToPixel[fg]; \ else \ gcv.foreground = fg; \ \ XChangeGC(dpy, gc, GCForeground, &gcv); \ \ for (i = 0; i < nSubrects; i++) { \ sx = rfbHextileExtractX(*ptr); \ sy = rfbHextileExtractY(*ptr); \ ptr++; \ sw = rfbHextileExtractW(*ptr); \ sh = rfbHextileExtractH(*ptr); \ ptr++; \ XFillRectangle(dpy, canvas, gc, x+sx, y+sy, sw, sh); \ } \ } \ } \ } \ \ return True; \ } DEFINE_HEXTILE(8) DEFINE_HEXTILE(16) DEFINE_HEXTILE(32) /* * PrintPixelFormat. */ void PrintPixelFormat(format) rfbPixelFormat *format; { if (format->bitsPerPixel == 1) { fprintf(stderr,"Single bit per pixel.\n"); fprintf(stderr, "%s significant bit in each byte is leftmost on the screen.\n", (format->bigEndian ? "Most" : "Least")); } else { fprintf(stderr,"%d bits per pixel.\n",format->bitsPerPixel); if (format->bitsPerPixel != 8) { fprintf(stderr,"%s significant byte first in each pixel.\n", (format->bigEndian ? "Most" : "Least")); } if (format->trueColour) { fprintf(stderr,"True colour: max red %d green %d blue %d\n", format->redMax, format->greenMax, format->blueMax); fprintf(stderr," shift red %d green %d blue %d\n", format->redShift, format->greenShift, format->blueShift); } else { fprintf(stderr,"Uses a colour map (not true colour).\n"); } } }