/* Copyright 2015 Pierre Ossman for Cendio AB * * 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. */ /* * This program reads files produced by TightVNC's/TurboVNC's * compare-encodings. It is basically a dump of the RFB protocol * from the server side from the ServerInit message and forward. * It is assumed that the client is using a bgr888 (LE) pixel * format. */ #include #include #include #include #include #include #include #include #include #include #include "util.h" // FIXME: Files are always in this format static const rfb::PixelFormat filePF(32, 24, false, true, 255, 255, 255, 0, 8, 16); class CConn : public rfb::CConnection { public: CConn(const char *filename); ~CConn(); virtual void setDesktopSize(int w, int h); virtual void setPixelFormat(const rfb::PixelFormat& pf); virtual void setCursor(int, int, const rfb::Point&, void*, void*); virtual void dataRect(const rfb::Rect&, int); virtual void setColourMapEntries(int, int, rdr::U16*); virtual void bell(); virtual void serverCutText(const char*, rdr::U32); public: double cpuTime; protected: rdr::FileInStream *in; rfb::Decoder *decoders[rfb::encodingMax+1]; rfb::ManagedPixelBuffer pb; }; CConn::CConn(const char *filename) { int i; cpuTime = 0.0; in = new rdr::FileInStream(filename); setStreams(in, NULL); memset(decoders, 0, sizeof(decoders)); for (i = 0;i < rfb::encodingMax;i++) { if (!rfb::Decoder::supported(i)) continue; decoders[i] = rfb::Decoder::createDecoder(i, this); } // Need to skip the initial handshake setState(RFBSTATE_INITIALISATION); // That also means that the reader and writer weren't setup setReader(new rfb::CMsgReader(this, in)); } CConn::~CConn() { int i; delete in; for (i = 0;i < rfb::encodingMax;i++) delete decoders[i]; } void CConn::setDesktopSize(int w, int h) { CConnection::setDesktopSize(w, h); pb.setSize(cp.width, cp.height); } void CConn::setPixelFormat(const rfb::PixelFormat& pf) { // Override format CConnection::setPixelFormat(filePF); pb.setPF(cp.pf()); } void CConn::setCursor(int, int, const rfb::Point&, void*, void*) { } void CConn::dataRect(const rfb::Rect &r, int encoding) { if (!decoders[encoding]) throw rdr::Exception("Unknown encoding"); startCpuCounter(); decoders[encoding]->readRect(r, &pb); endCpuCounter(); cpuTime += getCpuCounter(); } void CConn::setColourMapEntries(int, int, rdr::U16*) { } void CConn::bell() { } void CConn::serverCutText(const char*, rdr::U32) { } static double runTest(const char *fn) { CConn *cc; double time; try { cc = new CConn(fn); } catch (rdr::Exception e) { fprintf(stderr, "Failed to open rfb file: %s\n", e.str()); exit(1); } try { while (true) cc->processMsg(); } catch (rdr::EndOfStream e) { } catch (rdr::Exception e) { fprintf(stderr, "Failed to run rfb file: %s\n", e.str()); exit(1); } time = cc->cpuTime; delete cc; return time; } static void sort(double *array, int count) { bool sorted; int i; do { sorted = true; for (i = 1;i < count;i++) { if (array[i-1] > array[i]) { double d; d = array[i]; array[i] = array[i-1]; array[i-1] = d; sorted = false; } } } while (!sorted); } static const int runCount = 9; int main(int argc, char **argv) { int i; double times[runCount], dev[runCount]; double median, meddev; if (argc != 2) { printf("Syntax: %s \n", argv[0]); return 1; } // Warmup runTest(argv[1]); // Multiple runs to get a good average for (i = 0;i < runCount;i++) times[i] = runTest(argv[1]); // Calculate median and median deviation sort(times, runCount); median = times[runCount/2]; for (i = 0;i < runCount;i++) dev[i] = fabs((times[i] - median) / median) * 100; sort(dev, runCount); meddev = dev[runCount/2]; printf("CPU time: %g s (+/- %g %%)\n", median, meddev); return 0; }