/// /// @file softhddevice.cpp @brief A software HD device plugin for VDR. /// /// Copyright (c) 2011 - 2015 by Johns. All Rights Reserved. /// /// Contributor(s): /// /// License: AGPLv3 /// /// This program is free software: you can redistribute it and/or modify /// it under the terms of the GNU Affero General Public License as /// published by the Free Software Foundation, either version 3 of the /// License. /// /// This program 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 Affero General Public License for more details. /// /// $Id: fa6a877682f47297580ff5f502425fc7948cb2fa $ ////////////////////////////////////////////////////////////////////////////// #define __STDC_CONSTANT_MACROS ///< needed for ffmpeg UINT64_C #include #include #include #include #include #include #include #ifdef HAVE_CONFIG #include "config.h" #endif #include "softhddev.h" #include "softhddevice.h" #include "softhddevice_service.h" #ifdef USE_OPENGLOSD #include "openglosd.h" #endif extern "C" { #include #include #ifndef USE_OPENGLOSD #include "audio.h" #include "codec.h" #include "video.h" #endif #ifdef PLACEBO #include extern void ToggleLUT(); #endif } ////////////////////////////////////////////////////////////////////////////// /// vdr-plugin version number. /// Makefile extracts the version number for generating the file name /// for the distribution archive. static const char *const VERSION = "3.7.3" #ifdef GIT_REV "-GIT" GIT_REV #endif ; /// vdr-plugin description. static const char *const DESCRIPTION = trNOOP("A software and GPU emulated UHD device"); /// vdr-plugin text of main menu entry static const char *MAINMENUENTRY = trNOOP("SoftUHD"); /// single instance of softhddevice plugin device. static class cSoftHdDevice *MyDevice; ////////////////////////////////////////////////////////////////////////////// #define RESOLUTIONS 5 ///< number of resolutions /// resolutions names static const char *const Resolution[RESOLUTIONS] = {"576i", "720p", "1080i_fake", "1080i", "UHD"}; static char ConfigMakePrimary; ///< config primary wanted static char ConfigHideMainMenuEntry; ///< config hide main menu entry static char ConfigDetachFromMainMenu; ///< detach from main menu entry instead ///< of suspend static char ConfigSuspendClose; ///< suspend should close devices static char ConfigSuspendX11; ///< suspend should stop x11 static char Config4to3DisplayFormat = 1; ///< config 4:3 display format static char ConfigOtherDisplayFormat = 1; ///< config other display format static uint32_t ConfigVideoBackground; ///< config video background color static int ConfigOsdWidth; ///< config OSD width static int ConfigOsdHeight; ///< config OSD height static char ConfigVideoStudioLevels; ///< config use studio levels static char ConfigVideo60HzMode; ///< config use 60Hz display mode static char ConfigVideoSoftStartSync; ///< config use softstart sync static char ConfigVideoBlackPicture; ///< config enable black picture mode char ConfigVideoClearOnSwitch; ///< config enable Clear on channel switch static int ConfigVideoBrightness; ///< config video brightness static int ConfigVideoContrast = 100; ///< config video contrast static int ConfigVideoSaturation = 100; ///< config video saturation static int ConfigVideoHue; ///< config video hue static int ConfigGamma = 100; ///< config Gamma static int ConfigTemperature = 0; ///< config Temperature static int ConfigTargetColorSpace; ///< config Target Colrospace static int ConfigScalerTest; /// Test for Scalers static int ConfigColorBlindness; static int ConfigColorBlindnessFaktor; /// config deinterlace static int ConfigVideoDeinterlace[RESOLUTIONS]; /// config skip chroma static int ConfigVideoSkipChromaDeinterlace[RESOLUTIONS]; /// config inverse telecine static int ConfigVideoInverseTelecine[RESOLUTIONS]; /// config denoise static int ConfigVideoDenoise[RESOLUTIONS]; /// config sharpen static int ConfigVideoSharpen[RESOLUTIONS]; /// config scaling static int ConfigVideoScaling[RESOLUTIONS]; /// config cut top and bottom pixels static int ConfigVideoCutTopBottom[RESOLUTIONS]; /// config cut left and right pixels static int ConfigVideoCutLeftRight[RESOLUTIONS]; static int ConfigVideoAudioDelay; ///< config audio delay static char ConfigAudioDrift; ///< config audio drift static char ConfigAudioPassthrough; ///< config audio pass-through mask static char AudioPassthroughState; ///< flag audio pass-through on/off static char ConfigAudioDownmix; ///< config ffmpeg audio downmix static char ConfigAudioSoftvol; ///< config use software volume static char ConfigAudioNormalize; ///< config use normalize volume static int ConfigAudioMaxNormalize; ///< config max normalize factor static char ConfigAudioCompression; ///< config use volume compression static int ConfigAudioMaxCompression; ///< config max volume compression static int ConfigAudioStereoDescent; ///< config reduce stereo loudness int ConfigAudioBufferTime; ///< config size ms of audio buffer static int ConfigAudioAutoAES; ///< config automatic AES handling static char *ConfigX11Display; ///< config x11 display static char *ConfigAudioDevice; ///< config audio stereo device static char *ConfigPassthroughDevice; ///< config audio pass-through device #ifdef USE_PIP static int ConfigPipX = 100 - 3 - 18; ///< config pip pip x in % static int ConfigPipY = 100 - 4 - 18; ///< config pip pip y in % static int ConfigPipWidth = 18; ///< config pip pip width in % static int ConfigPipHeight = 18; ///< config pip pip height in % static int ConfigPipVideoX; ///< config pip video x in % static int ConfigPipVideoY; ///< config pip video y in % static int ConfigPipVideoWidth; ///< config pip video width in % static int ConfigPipVideoHeight; ///< config pip video height in % static int ConfigPipAltX; ///< config pip alt. pip x in % static int ConfigPipAltY = 50; ///< config pip alt. pip y in % static int ConfigPipAltWidth; ///< config pip alt. pip width in % static int ConfigPipAltHeight = 50; ///< config pip alt. pip height in % static int ConfigPipAltVideoX; ///< config pip alt. video x in % static int ConfigPipAltVideoY; ///< config pip alt. video y in % static int ConfigPipAltVideoWidth; ///< config pip alt. video width in % static int ConfigPipAltVideoHeight = 50; ///< config pip alt. video height in % #endif #ifdef USE_SCREENSAVER static char ConfigEnableDPMSatBlackScreen; ///< Enable DPMS(Screensaver) while ///< displaying black screen(radio) #endif #ifdef USE_OPENGLOSD static int ConfigMaxSizeGPUImageCache = 128; ///< maximum size of GPU mem to be used for image caching #endif static volatile int DoMakePrimary; ///< switch primary device to this #define SUSPEND_EXTERNAL -1 ///< play external suspend mode #define NOT_SUSPENDED 0 ///< not suspend mode #define SUSPEND_NORMAL 1 ///< normal suspend mode #define SUSPEND_DETACHED 2 ///< detached suspend mode static signed char SuspendMode; ///< suspend mode ////////////////////////////////////////////////////////////////////////////// ////////////////////////////////////////////////////////////////////////////// // C Callbacks ////////////////////////////////////////////////////////////////////////////// /** ** Soft device plugin remote class. */ class cSoftRemote : public cRemote, private cThread { private: cMutex mutex; cCondVar keyReceived; cString Command; virtual void Action(void); public: /** ** Soft device remote class constructor. ** ** @param name remote name */ cSoftRemote(void) : cRemote("XKeySym") { Start(); } virtual ~cSoftRemote() { Cancel(3); } /** ** Receive keycode. ** ** @param code key code */ void Receive(const char *code) { cMutexLock MutexLock(&mutex); Command = code; keyReceived.Broadcast(); } }; void cSoftRemote::Action(void) { // see also VDR's cKbdRemote::Action() cTimeMs FirstTime; cTimeMs LastTime; cString FirstCommand = ""; cString LastCommand = ""; bool Delayed = false; bool Repeat = false; while (Running()) { cMutexLock MutexLock(&mutex); if (keyReceived.TimedWait(mutex, Setup.RcRepeatDelta * 3 / 2) && **Command) { if (strcmp(Command, LastCommand) == 0) { // If two keyboard events with the same command come in without an // intermediate timeout, this is a long key press that caused the repeat // function to kick in: Delayed = false; FirstCommand = ""; if (FirstTime.Elapsed() < (uint)Setup.RcRepeatDelay) continue; // repeat function kicks in after a short delay if (LastTime.Elapsed() < (uint)Setup.RcRepeatDelta) continue; // skip same keys coming in too fast cRemote::Put(Command, true); Repeat = true; LastTime.Set(); } else if (strcmp(Command, FirstCommand) == 0) { // If the same command comes in twice with an intermediate timeout, we // need to delay the second command to see whether it is going to be // a repeat function or a separate key press: Delayed = true; } else { // This is a totally new key press, so we accept it immediately: cRemote::Put(Command); Delayed = false; FirstCommand = Command; FirstTime.Set(); } } else if (Repeat) { // Timeout after a repeat function, so we generate a 'release': cRemote::Put(LastCommand, false, true); Repeat = false; } else if (Delayed && *FirstCommand) { // Timeout after two normal key presses of the same key, so accept the // delayed key: cRemote::Put(FirstCommand); Delayed = false; FirstCommand = ""; FirstTime.Set(); } else if (**FirstCommand && FirstTime.Elapsed() > (uint)Setup.RcRepeatDelay) { Delayed = false; FirstCommand = ""; FirstTime.Set(); } LastCommand = Command; Command = ""; } } static cSoftRemote *csoft = NULL; /** ** Feed key press as remote input (called from C part). ** ** @param keymap target keymap "XKeymap" name (obsolete, ignored) ** @param key pressed/released key name ** @param repeat repeated key flag (obsolete, ignored) ** @param release released key flag (obsolete, ignored) ** @param letter x11 character string (system setting locale) */ extern "C" void FeedKeyPress(const char *keymap, const char *key, int repeat, int release, const char *letter) { if (!csoft || !keymap || !key) { return; } csoft->Receive(key); } ////////////////////////////////////////////////////////////////////////////// // OSD ////////////////////////////////////////////////////////////////////////////// /** ** Soft device plugin OSD class. */ class cSoftOsd : public cOsd { public: static volatile char Dirty; ///< flag force redraw everything int OsdLevel; ///< current osd level FIXME: remove cSoftOsd(int, int, uint); ///< osd constructor virtual ~cSoftOsd(void); ///< osd destructor /// set the sub-areas to the given areas virtual eOsdError SetAreas(const tArea *, int); virtual void Flush(void); ///< commits all data to the hardware virtual void SetActive(bool); ///< sets OSD to be the active one }; volatile char cSoftOsd::Dirty; ///< flag force redraw everything /** ** Sets this OSD to be the active one. ** ** @param on true on, false off ** ** @note only needed as workaround for text2skin plugin with ** undrawn areas. */ void cSoftOsd::SetActive(bool on) { #ifdef OSD_DEBUG dsyslog("[softhddev]%s: %d level %d\n", __FUNCTION__, on, OsdLevel); #endif if (Active() == on) { return; // already active, no action } cOsd::SetActive(on); if (on) { Dirty = 1; // only flush here if there are already bitmaps if (GetBitmap(0)) { Flush(); } } else { OsdClose(); } } /** ** Constructor OSD. ** ** Initializes the OSD with the given coordinates. ** ** @param left x-coordinate of osd on display ** @param top y-coordinate of osd on display ** @param level level of the osd (smallest is shown) */ cSoftOsd::cSoftOsd(int left, int top, uint level) : cOsd(left, top, level) { #ifdef OSD_DEBUG /* FIXME: OsdWidth/OsdHeight not correct! */ dsyslog("[softhddev]%s: %dx%d%+d%+d, %d\n", __FUNCTION__, OsdWidth(), OsdHeight(), left, top, level); #endif OsdLevel = level; } /** ** OSD Destructor. ** ** Shuts down the OSD. */ cSoftOsd::~cSoftOsd(void) { #ifdef OSD_DEBUG dsyslog("[softhddev]%s: level %d\n", __FUNCTION__, OsdLevel); #endif SetActive(false); // done by SetActive: OsdClose(); #ifdef USE_YAEPG // support yaepghd, video window if (vidWin.bpp) { // restore fullsized video int width; int height; double video_aspect; ::GetOsdSize(&width, &height, &video_aspect); // works osd relative ::ScaleVideo(0, 0, width, height); } #endif } /** ** Set the sub-areas to the given areas */ eOsdError cSoftOsd::SetAreas(const tArea *areas, int n) { #ifdef OSD_DEBUG dsyslog("[softhddev]%s: %d areas \n", __FUNCTION__, n); #endif // clear old OSD, when new areas are set if (!IsTrueColor()) { cBitmap *bitmap; int i; for (i = 0; (bitmap = GetBitmap(i)); i++) { bitmap->Clean(); } } if (Active()) { VideoOsdClear(); Dirty = 1; } return cOsd::SetAreas(areas, n); } /** ** Actually commits all data to the OSD hardware. */ void cSoftOsd::Flush(void) { cPixmapMemory *pm; #ifdef OSD_DEBUG dsyslog("[softhddev]%s: level %d active %d\n", __FUNCTION__, OsdLevel, Active()); #endif if (!Active()) { // this osd is not active return; } #ifdef USE_YAEPG // support yaepghd, video window if (vidWin.bpp) { #ifdef OSD_DEBUG dsyslog("[softhddev]%s: %dx%d%+d%+d\n", __FUNCTION__, vidWin.Width(), vidWin.Height(), vidWin.x1, vidWin.y2); #endif // FIXME: vidWin is OSD relative not video window. // FIXME: doesn't work if fixed OSD width != real window width // FIXME: solved in VideoSetOutputPosition ::ScaleVideo(Left() + vidWin.x1, Top() + vidWin.y1, vidWin.Width(), vidWin.Height()); } #endif if (!IsTrueColor()) { cBitmap *bitmap; int i; #ifdef OSD_DEBUG static char warned; if (!warned) { dsyslog("[softhddev]%s: FIXME: should be truecolor\n", __FUNCTION__); warned = 1; } #endif // draw all bitmaps for (i = 0; (bitmap = GetBitmap(i)); ++i) { uint8_t *argb; int xs; int ys; int x; int y; int w; int h; int x1; int y1; int x2; int y2; // get dirty bounding box if (Dirty) { // forced complete update x1 = 0; y1 = 0; x2 = bitmap->Width() - 1; y2 = bitmap->Height() - 1; } else if (!bitmap->Dirty(x1, y1, x2, y2)) { continue; // nothing dirty continue } // convert and upload only visible dirty areas xs = bitmap->X0() + Left(); ys = bitmap->Y0() + Top(); // FIXME: negtative position bitmaps w = x2 - x1 + 1; h = y2 - y1 + 1; // clip to screen if (1) { // just for the case it makes trouble int width; int height; double video_aspect; if (xs < 0) { if (xs + x1 < 0) { x1 -= xs + x1; w += xs + x1; if (w <= 0) { continue; } } xs = 0; } if (ys < 0) { if (ys + y1 < 0) { y1 -= ys + y1; h += ys + y1; if (h <= 0) { continue; } } ys = 0; } ::GetOsdSize(&width, &height, &video_aspect); if (w > width - xs - x1) { w = width - xs - x1; if (w <= 0) { continue; } x2 = x1 + w - 1; } if (h > height - ys - y1) { h = height - ys - y1; if (h <= 0) { continue; } y2 = y1 + h - 1; } } #ifdef DEBUG if (w > bitmap->Width() || h > bitmap->Height()) { esyslog(tr("[softhddev]: dirty area too big\n")); abort(); } #endif argb = (uint8_t *)malloc(w * h * sizeof(uint32_t)); for (y = y1; y <= y2; ++y) { for (x = x1; x <= x2; ++x) { ((uint32_t *)argb)[x - x1 + (y - y1) * w] = bitmap->GetColor(x, y); } } #ifdef OSD_DEBUG dsyslog("[softhddev]%s: draw %dx%d%+d%+d bm\n", __FUNCTION__, w, h, xs + x1, ys + y1); #endif OsdDrawARGB(0, 0, w, h, w * sizeof(uint32_t), argb, xs + x1, ys + y1); bitmap->Clean(); // FIXME: reuse argb free(argb); } Dirty = 0; return; } LOCK_PIXMAPS; while ((pm = (dynamic_cast(RenderPixmaps())))) { int xp; int yp; int stride; int x; int y; int w; int h; x = pm->ViewPort().X(); y = pm->ViewPort().Y(); w = pm->ViewPort().Width(); h = pm->ViewPort().Height(); stride = w * sizeof(tColor); // clip to osd xp = 0; if (x < 0) { xp = -x; w -= xp; x = 0; } yp = 0; if (y < 0) { yp = -y; h -= yp; y = 0; } if (w > Width() - x) { w = Width() - x; } if (h > Height() - y) { h = Height() - y; } x += Left(); y += Top(); // clip to screen if (1) { // just for the case it makes trouble // and it can happen! int width; int height; double video_aspect; if (x < 0) { w += x; xp += -x; x = 0; } if (y < 0) { h += y; yp += -y; y = 0; } ::GetOsdSize(&width, &height, &video_aspect); if (w > width - x) { w = width - x; } if (h > height - y) { h = height - y; } } #ifdef OSD_DEBUG dsyslog("[softhddev]%s: draw %dx%d%+d%+d*%d -> %+d%+d %p\n", __FUNCTION__, w, h, xp, yp, stride, x, y, pm->Data()); #endif OsdDrawARGB(xp, yp, w, h, stride, pm->Data(), x, y); DestroyPixmap(pm); } Dirty = 0; } #ifdef USE_OPENGLOSD //Dummy Pixmap for skins class cDummyPixmap : public cPixmap { public: cDummyPixmap(int Layer, const cRect &ViewPort, const cRect &DrawPort = cRect::Null) : cPixmap(Layer, ViewPort, DrawPort) {} virtual ~cDummyPixmap(void) {} virtual void Clear(void) {} virtual void Fill(tColor Color) { (void)Color; } virtual void DrawImage(const cPoint &Point, const cImage &Image) { (void)Point; (void)Image; } virtual void DrawImage(const cPoint &Point, int ImageHandle) { (void)Point; (void)ImageHandle; } virtual void DrawPixel(const cPoint &Point, tColor Color) { (void)Point; (void)Color; } virtual void DrawBitmap(const cPoint &Point, const cBitmap &Bitmap, tColor ColorFg = 0, tColor ColorBg = 0, bool Overlay = false) { (void) Point; (void)Bitmap; (void)ColorFg; (void)ColorBg; (void)Overlay; } virtual void DrawText(const cPoint &Point, const char *s, tColor ColorFg, tColor ColorBg, const cFont *Font, int Width = 0, int Height = 0, int Alignment = taDefault) { (void)Point; (void)s; (void)ColorFg; (void) ColorBg; (void) Font; (void)Width; (void)Height; (void)Alignment; } virtual void DrawRectangle(const cRect &Rect, tColor Color) { (void)Rect; (void)Color; } virtual void DrawEllipse(const cRect &Rect, tColor Color, int Quadrants = 0) { (void)Rect; (void)Color; (void)Quadrants; } virtual void DrawSlope(const cRect &Rect, tColor Color, int Type) { (void)Rect; (void)Color; (void)Type; } virtual void Render(const cPixmap *Pixmap, const cRect &Source, const cPoint &Dest) { (void)Pixmap; (void)Source; (void)Dest; } virtual void Copy(const cPixmap *Pixmap, const cRect &Source, const cPoint &Dest) { (void)Pixmap; (void)Source; (void)Dest; } virtual void Scroll(const cPoint &Dest, const cRect &Source = cRect::Null) { (void)Dest; (void)Source; } virtual void Pan(const cPoint &Dest, const cRect &Source = cRect::Null) { (void)Dest; (void)Source; } }; // Dummy OSD for OpenGL OSD if no X Server is available class cDummyOsd : public cOsd { private: cDummyPixmap *p; public: cDummyOsd(int Left, int Top, uint Level) : cOsd(Left, Top, Level) {} virtual ~cDummyOsd() {} virtual cPixmap *CreatePixmap(int Layer, const cRect &ViewPort, const cRect &DrawPort = cRect::Null) { p = new cDummyPixmap(Layer, ViewPort, DrawPort); return p; } virtual void DestroyPixmap(cPixmap *Pixmap) { (void)Pixmap; } virtual void DrawImage(const cPoint &Point, const cImage &Image) { (void)Point; (void)Image; } virtual void DrawImage(const cPoint &Point, int ImageHandle) { (void)Point; (void)ImageHandle; } virtual eOsdError CanHandleAreas(const tArea *Areas, int NumAreas) { (void)Areas; (void)NumAreas; return oeOk; } virtual eOsdError SetAreas(const tArea *Areas, int NumAreas) { (void)Areas; (void)NumAreas; return oeOk; } virtual void SaveRegion(int x1, int y1, int x2, int y2) { (void)x1; (void)y1; (void)x2; (void)y2; } virtual void RestoreRegion(void) {} virtual eOsdError SetPalette(const cPalette &Palette, int Area) { (void)Palette; (void)Area; return oeOk; } virtual void DrawPixel(int x, int y, tColor Color) { (void)x; (void)y; (void)Color; } virtual void DrawBitmap(int x, int y, const cBitmap &Bitmap, tColor ColorFg = 0, tColor ColorBg = 0, bool ReplacePalette = false, bool Overlay = false) { (void)x; (void)y; (void)Bitmap; (void)ColorFg; (void)ColorBg; (void)ReplacePalette; (void)Overlay; } virtual void DrawText(int x, int y, const char *s, tColor ColorFg, tColor ColorBg, const cFont *Font, int Width = 0, int Height = 0, int Alignment = taDefault) { (void)x; (void)y; (void)s; (void)ColorFg; (void)ColorBg; (void)Font; (void)Width; (void)Height; (void)Alignment; } virtual void DrawRectangle(int x1, int y1, int x2, int y2, tColor Color) { (void)x1; (void)y1; (void)x2; (void)y2; (void)Color; } virtual void DrawEllipse(int x1, int y1, int x2, int y2, tColor Color, int Quadrants = 0) { (void)x1; (void)y1; (void)x2; (void)y2; (void)Color; (void)Quadrants; } virtual void DrawSlope(int x1, int y1, int x2, int y2, tColor Color, int Type) { (void)x1; (void)y1; (void)x2; (void)y2; (void)Color; (void)Type; } virtual void Flush(void) {} }; #endif ////////////////////////////////////////////////////////////////////////////// // OSD provider ////////////////////////////////////////////////////////////////////////////// /** ** Soft device plugin OSD provider class. */ class cSoftOsdProvider : public cOsdProvider { private: static cOsd *Osd; ///< single OSD #ifdef USE_OPENGLOSD static std::shared_ptr oglThread; static bool StartOpenGlThread(void); protected: virtual int StoreImageData(const cImage &Image); virtual void DropImageData(int ImageHandle); #endif public: virtual cOsd *CreateOsd(int, int, uint); virtual bool ProvidesTrueColor(void); #ifdef USE_OPENGLOSD static void StopOpenGlThread(void); static const cImage *GetImageData(int ImageHandle); static void OsdSizeChanged(void); #endif cSoftOsdProvider(void); ///< OSD provider constructor virtual ~cSoftOsdProvider(); ///< OSD provider destructor }; cOsd *cSoftOsdProvider::Osd; ///< single osd #ifdef USE_OPENGLOSD std::shared_ptr cSoftOsdProvider::oglThread; ///< openGL worker Thread int cSoftOsdProvider::StoreImageData(const cImage &Image) { if (StartOpenGlThread()) { int imgHandle = oglThread->StoreImage(Image); return imgHandle; } return 0; } void cSoftOsdProvider::DropImageData(int ImageHandle) { if (StartOpenGlThread()) oglThread->DropImageData(ImageHandle); } #endif /** ** Create a new OSD. ** ** @param left x-coordinate of OSD ** @param top y-coordinate of OSD ** @param level layer level of OSD */ cOsd *cSoftOsdProvider::CreateOsd(int left, int top, uint level) { #ifdef USE_OPENGLOSD dsyslog("[softhddev]%s: left %d, top %d, level %d, using OpenGL OSD support\n", __FUNCTION__, left, top, level); if (StartOpenGlThread()) return Osd = new cOglOsd(left, top, level, oglThread); // return dummy osd if shd is detached dsyslog("[softhddev]OpenGl Thread not started successfully, using Dummy OSD"); return Osd = new cDummyOsd(left, top, 999); #else dsyslog("[softhddev]%s: %d, %d, %d\n", __FUNCTION__, left, top, level); return Osd = new cSoftOsd(left, top, level); #endif } /** ** Check if this OSD provider is able to handle a true color OSD. ** ** @returns true we are able to handle a true color OSD. */ bool cSoftOsdProvider::ProvidesTrueColor(void) { return true; } #ifdef USE_OPENGLOSD const cImage *cSoftOsdProvider::GetImageData(int ImageHandle) { return cOsdProvider::GetImageData(ImageHandle); } void cSoftOsdProvider::OsdSizeChanged(void) { // cleanup OpenGl Context cSoftOsdProvider::StopOpenGlThread(); cOsdProvider::UpdateOsdSize(); } bool cSoftOsdProvider::StartOpenGlThread(void) { // only try to start worker thread if shd is attached // otherwise glutInit() crashes if (SuspendMode != NOT_SUSPENDED) { dsyslog("[softhddev]detached - OpenGl Worker Thread not tried to start"); return false; } if (oglThread.get()) { if (oglThread->Active()) { return true; } oglThread.reset(); } cCondWait wait; dsyslog("[softhddev]Trying to start OpenGL Worker Thread"); oglThread.reset(new cOglThread(&wait, ConfigMaxSizeGPUImageCache)); wait.Wait(); if (oglThread->Active()) { dsyslog("[softhddev]OpenGL Worker Thread successfully started"); return true; } dsyslog("[softhddev]openGL Thread NOT successfully started"); return false; } void cSoftOsdProvider::StopOpenGlThread(void) { dsyslog("[softhddev]stopping OpenGL Worker Thread "); if (oglThread) { // OsdClose(); oglThread->Stop(); } oglThread.reset(); dsyslog("[softhddev]OpenGL Worker Thread stopped"); } #endif /** ** Create cOsdProvider class. */ cSoftOsdProvider::cSoftOsdProvider(void) : cOsdProvider() { #ifdef OSD_DEBUG dsyslog("[softhddev]%s:\n", __FUNCTION__); #endif #ifdef USE_OPENGLOSD StopOpenGlThread(); VideoSetVideoEventCallback(&OsdSizeChanged); #endif } /** ** Destroy cOsdProvider class. */ cSoftOsdProvider::~cSoftOsdProvider() { #ifdef OSD_DEBUG dsyslog("[softhddev]%s:\n", __FUNCTION__); #endif #ifdef USE_OPENGLOSD StopOpenGlThread(); #endif } ////////////////////////////////////////////////////////////////////////////// // cMenuSetupPage ////////////////////////////////////////////////////////////////////////////// /** ** Soft device plugin menu setup page class. */ class cMenuSetupSoft : public cMenuSetupPage { protected: /// /// local copies of global setup variables: /// @{ int General; int MakePrimary; int HideMainMenuEntry; int DetachFromMainMenu; int OsdSize; int OsdWidth; int OsdHeight; int SuspendClose; int SuspendX11; int Video; int Video4to3DisplayFormat; int VideoOtherDisplayFormat; uint32_t Background; uint32_t BackgroundAlpha; int StudioLevels; int _60HzMode; int SoftStartSync; int BlackPicture; int ClearOnSwitch; int Brightness; int Contrast; int Saturation; int Hue; int Gamma; int Temperature; int TargetColorSpace; int ScalerTest; int ColorBlindnessFaktor; int ColorBlindness; int ResolutionShown[RESOLUTIONS]; int Scaling[RESOLUTIONS]; int Deinterlace[RESOLUTIONS]; int SkipChromaDeinterlace[RESOLUTIONS]; int InverseTelecine[RESOLUTIONS]; int Denoise[RESOLUTIONS]; int Sharpen[RESOLUTIONS]; int CutTopBottom[RESOLUTIONS]; int CutLeftRight[RESOLUTIONS]; int Audio; int AudioDelay; int AudioDrift; int AudioPassthroughDefault; int AudioPassthroughPCM; int AudioPassthroughAC3; int AudioPassthroughEAC3; int AudioDownmix; int AudioSoftvol; int AudioNormalize; int AudioMaxNormalize; int AudioCompression; int AudioMaxCompression; int AudioStereoDescent; int AudioBufferTime; int AudioAutoAES; #ifdef USE_PIP int Pip; int PipX; int PipY; int PipWidth; int PipHeight; int PipVideoX; int PipVideoY; int PipVideoWidth; int PipVideoHeight; int PipAltX; int PipAltY; int PipAltWidth; int PipAltHeight; int PipAltVideoX; int PipAltVideoY; int PipAltVideoWidth; int PipAltVideoHeight; #endif #ifdef USE_SCREENSAVER int EnableDPMSatBlackScreen; #endif #ifdef USE_OPENGLOSD int MaxSizeGPUImageCache; #endif /// @} private: inline cOsdItem *CollapsedItem(const char *, int &, const char * = NULL); void Create(void); // create sub-menu protected: virtual void Store(void); public: cMenuSetupSoft(void); virtual eOSState ProcessKey(eKeys); // handle input }; /** ** Create a seperator item. ** ** @param label text inside separator */ static inline cOsdItem *SeparatorItem(const char *label) { cOsdItem *item; item = new cOsdItem(cString::sprintf("* %s: ", label)); item->SetSelectable(false); return item; } /** ** Create a collapsed item. ** ** @param label text inside collapsed ** @param flag flag handling collapsed or opened ** @param msg open message */ inline cOsdItem *cMenuSetupSoft::CollapsedItem(const char *label, int &flag, const char *msg) { cOsdItem *item; item = new cMenuEditBoolItem(cString::sprintf("* %s", label), &flag, msg ? msg : tr("show"), tr("hide")); return item; } /** ** Create setup menu. */ void cMenuSetupSoft::Create(void) { static const char *const osd_size[] = { "auto", "1920x1080", "1280x720", "custom", }; static const char *const video_display_formats_4_3[] = {"pan&scan", "letterbox", "center cut-out", "original"}; static const char *const video_display_formats_16_9[] = {"pan&scan", "pillarbox", "center cut-out", "original"}; #ifdef YADIF static const char *const deinterlace[] = { "Cuda", "Yadif", }; static const char *const deinterlace_short[] = { "C", "Y", }; #endif static const char *const audiodrift[] = {"None", "PCM", "AC-3", "PCM + AC-3"}; static const char *const resolution[RESOLUTIONS] = {"576i", "720p", "fake 1080", "1080", "2160p"}; static const char *const target_colorspace[] = { "default Monitor", "sRGB Monitor", "HD TV (BT.709)", "UHD-HDR TV (BT.2020)", }; #ifdef PLACEBO static const char *const target_colorblindness[] = { "None", "Protanomaly", "Deuteranomaly", "Tritanomaly", "Monochromacy", }; #endif int current; int i; #ifdef PLACEBO static int scalers = 0; static char *scaling[100]; static char *scalingtest[100]; if (scalers == 0) { scalingtest[0] = (char *)"Off"; for (scalers = 0; pl_named_filters[scalers].name != NULL; scalers++) { scaling[scalers] = (char *)pl_named_filters[scalers].name; scalingtest[scalers + 1] = (char *)pl_named_filters[scalers].name; // printf("Scaler %s\n",pl_named_filters[scalers].name); } // scalers -= 2; } #endif current = Current(); // get current menu item index Clear(); // clear the menu // // general // Add(CollapsedItem(tr("General"), General)); if (General) { Add(new cMenuEditBoolItem(tr("Make primary device"), &MakePrimary, trVDR("no"), trVDR("yes"))); Add(new cMenuEditBoolItem(tr("Hide main menu entry"), &HideMainMenuEntry, trVDR("no"), trVDR("yes"))); // // osd // Add(new cMenuEditStraItem(tr("Osd size"), &OsdSize, 4, osd_size)); if (OsdSize == 3) { Add(new cMenuEditIntItem(tr("Osd width"), &OsdWidth, 0, 4096)); Add(new cMenuEditIntItem(tr("Osd height"), &OsdHeight, 0, 4096)); } #ifdef USE_OPENGLOSD Add(new cMenuEditIntItem(tr("GPU mem used for image caching (MB)"), &MaxSizeGPUImageCache, 0, 4000)); #endif // // suspend // Add(SeparatorItem(tr("Suspend"))); Add(new cMenuEditBoolItem(tr("Detach from main menu entry"), &DetachFromMainMenu, trVDR("no"), trVDR("yes"))); Add(new cMenuEditBoolItem(tr("Suspend closes video+audio"), &SuspendClose, trVDR("no"), trVDR("yes"))); Add(new cMenuEditBoolItem(tr("Suspend stops x11"), &SuspendX11, trVDR("no"), trVDR("yes"))); } // // video // Add(CollapsedItem(tr("Video"), Video)); if (Video) { #ifdef USE_SCREENSAVER Add(new cMenuEditBoolItem(tr("Enable Screensaver(DPMS) at black screen"), &EnableDPMSatBlackScreen, trVDR("no"), trVDR("yes"))); #endif Add(new cMenuEditStraItem(trVDR("4:3 video display format"), &Video4to3DisplayFormat, 4, video_display_formats_4_3)); Add(new cMenuEditStraItem(trVDR("16:9+other video display format"), &VideoOtherDisplayFormat, 4, video_display_formats_16_9)); #if 0 // FIXME: switch config gray/color configuration Add(new cMenuEditIntItem(tr("Video background color (RGB)"), (int *)&Background, 0, 0x00FFFFFF)); Add(new cMenuEditIntItem(tr("Video background color (Alpha)"), (int *)&BackgroundAlpha, 0, 0xFF)); #endif #ifdef PLACEBO Add(new cMenuEditBoolItem(tr("Use studio levels"), &StudioLevels, trVDR("no"), trVDR("yes"))); #endif Add(new cMenuEditBoolItem(tr("60hz display mode"), &_60HzMode, trVDR("no"), trVDR("yes"))); Add(new cMenuEditBoolItem(tr("Soft start a/v sync"), &SoftStartSync, trVDR("no"), trVDR("yes"))); Add(new cMenuEditBoolItem(tr("Black during channel switch"), &BlackPicture, trVDR("no"), trVDR("yes"))); Add(new cMenuEditBoolItem(tr("Clear decoder on channel switch"), &ClearOnSwitch, trVDR("no"), trVDR("yes"))); #if PLACEBO Add(new cMenuEditStraItem(tr("Scaler Test"), &ConfigScalerTest, scalers + 1, scalingtest)); Add(new cMenuEditIntItem(tr("Brightness (-100..100)"), &Brightness, -100, 100, tr("min"), tr("max"))); Add(new cMenuEditIntItem(tr("Contrast (0..100)"), &Contrast, 0, 100, tr("min"), tr("max"))); Add(new cMenuEditIntItem(tr("Saturation (0..100)"), &Saturation, 0, 100, tr("min"), tr("max"))); Add(new cMenuEditIntItem(tr("Gamma (0..100)"), &Gamma, 0, 100, tr("min"), tr("max"))); Add(new cMenuEditIntItem(tr("Hue (-314..314) "), &Hue, -314, 314, tr("min"), tr("max"))); Add(new cMenuEditIntItem(tr("Temperature 6500K + x * 100K"), &Temperature, -35, 35, NULL, NULL)); Add(new cMenuEditStraItem(tr("Color Blindness"), &ColorBlindness, 5, target_colorblindness)); Add(new cMenuEditIntItem(tr("Color Correction (-100..100) "), &ColorBlindnessFaktor, -100, 100, tr("min"), tr("max"))); #endif Add(new cMenuEditStraItem(tr("Monitor Type"), &TargetColorSpace, 4, target_colorspace)); for (i = 0; i < RESOLUTIONS; ++i) { cString msg; // short hidden informations msg = cString::sprintf("show"); Add(CollapsedItem(resolution[i], ResolutionShown[i], msg)); if (ResolutionShown[i]) { #ifdef PLACEBO Add(new cMenuEditStraItem(tr("Scaling"), &Scaling[i], scalers, scaling)); #endif #ifdef YADIF if (i == 0 || i == 2 || i == 3) { Add(new cMenuEditStraItem(tr("Deinterlace"), &Deinterlace[i], 2, deinterlace)); } #endif #if 0 Add(new cMenuEditBoolItem(tr("SkipChromaDeinterlace (vdpau)"), &SkipChromaDeinterlace[i], trVDR("no"), trVDR("yes"))); Add(new cMenuEditBoolItem(tr("Inverse Telecine (vdpau)"), &InverseTelecine[i], trVDR("no"), trVDR("yes"))); Add(new cMenuEditIntItem(tr("Denoise (0..1000) (vdpau)"), &Denoise[i], 0, 1000, tr("off"), tr("max"))); Add(new cMenuEditIntItem(tr("Sharpen (-1000..1000) (vdpau)"), &Sharpen[i], -1000, 1000, tr("blur max"), tr("sharpen max"))); #endif Add(new cMenuEditIntItem(tr("Cut top and bottom (pixel)"), &CutTopBottom[i], 0, 250)); Add(new cMenuEditIntItem(tr("Cut left and right (pixel)"), &CutLeftRight[i], 0, 250)); } } } // // audio // Add(CollapsedItem(tr("Audio"), Audio)); if (Audio) { Add(new cMenuEditIntItem(tr("Audio/Video delay (ms)"), &AudioDelay, -1000, 1000)); Add(new cMenuEditStraItem(tr("Audio drift correction"), &AudioDrift, 4, audiodrift)); Add(new cMenuEditBoolItem(tr("Pass-through default"), &AudioPassthroughDefault, trVDR("off"), trVDR("on"))); if (AudioPassthroughDefault) { Add(new cMenuEditBoolItem(tr("\040\040PCM pass-through"), &AudioPassthroughPCM, trVDR("no"), trVDR("yes"))); Add(new cMenuEditBoolItem(tr("\040\040AC-3 pass-through"), &AudioPassthroughAC3, trVDR("no"), trVDR("yes"))); Add(new cMenuEditBoolItem(tr("\040\040E-AC-3 pass-through"), &AudioPassthroughEAC3, trVDR("no"), trVDR("yes"))); } else { Add(new cMenuEditBoolItem(tr("Enable (E-)AC-3 (decoder) downmix"), &AudioDownmix, trVDR("no"), trVDR("yes"))); } Add(new cMenuEditBoolItem(tr("Volume control"), &AudioSoftvol, tr("Hardware"), tr("Software"))); Add(new cMenuEditBoolItem(tr("Enable normalize volume"), &AudioNormalize, trVDR("no"), trVDR("yes"))); Add(new cMenuEditIntItem(tr(" Max normalize factor (/1000)"), &AudioMaxNormalize, 0, 10000)); Add(new cMenuEditBoolItem(tr("Enable volume compression"), &AudioCompression, trVDR("no"), trVDR("yes"))); Add(new cMenuEditIntItem(tr(" Max compression factor (/1000)"), &AudioMaxCompression, 0, 10000)); Add(new cMenuEditIntItem(tr("Reduce stereo volume (/1000)"), &AudioStereoDescent, 0, 1000)); Add(new cMenuEditIntItem(tr("Audio buffer size (ms)"), &AudioBufferTime, 0, 1000)); Add(new cMenuEditBoolItem(tr("Enable automatic AES"), &AudioAutoAES, trVDR("no"), trVDR("yes"))); } #ifdef USE_PIP // // PIP // Add(CollapsedItem(tr("Picture-In-Picture"), Pip)); if (Pip) { // FIXME: predefined modes/custom mode Add(new cMenuEditIntItem(tr("Pip X (%)"), &PipX, 0, 100)); Add(new cMenuEditIntItem(tr("Pip Y (%)"), &PipY, 0, 100)); Add(new cMenuEditIntItem(tr("Pip Width (%)"), &PipWidth, 0, 100)); Add(new cMenuEditIntItem(tr("Pip Height (%)"), &PipHeight, 0, 100)); Add(new cMenuEditIntItem(tr("Video X (%)"), &PipVideoX, 0, 100)); Add(new cMenuEditIntItem(tr("Video Y (%)"), &PipVideoY, 0, 100)); Add(new cMenuEditIntItem(tr("Video Width (%)"), &PipVideoWidth, 0, 100)); Add(new cMenuEditIntItem(tr("Video Height (%)"), &PipVideoHeight, 0, 100)); Add(new cMenuEditIntItem(tr("Alternative Pip X (%)"), &PipAltX, 0, 100)); Add(new cMenuEditIntItem(tr("Alternative Pip Y (%)"), &PipAltY, 0, 100)); Add(new cMenuEditIntItem(tr("Alternative Pip Width (%)"), &PipAltWidth, 0, 100)); Add(new cMenuEditIntItem(tr("Alternative Pip Height (%)"), &PipAltHeight, 0, 100)); Add(new cMenuEditIntItem(tr("Alternative Video X (%)"), &PipAltVideoX, 0, 100)); Add(new cMenuEditIntItem(tr("Alternative Video Y (%)"), &PipAltVideoY, 0, 100)); Add(new cMenuEditIntItem(tr("Alternative Video Width (%)"), &PipAltVideoWidth, 0, 100)); Add(new cMenuEditIntItem(tr("Alternative Video Height (%)"), &PipAltVideoHeight, 0, 100)); } #endif SetCurrent(Get(current)); // restore selected menu entry Display(); // display build menu } /** ** Process key for setup menu. */ eOSState cMenuSetupSoft::ProcessKey(eKeys key) { eOSState state; int old_general; int old_video; int old_audio; #ifdef USE_PIP int old_pip; #endif int old_osd_size; int old_resolution_shown[RESOLUTIONS]; int i; int old_pass; old_general = General; old_video = Video; old_audio = Audio; old_pass = AudioPassthroughDefault; #ifdef USE_PIP old_pip = Pip; #endif old_osd_size = OsdSize; memcpy(old_resolution_shown, ResolutionShown, sizeof(ResolutionShown)); state = cMenuSetupPage::ProcessKey(key); if (key != kNone) { // update menu only, if something on the structure has changed // this is needed because VDR menus are evil slow if (old_general != General || old_video != Video || old_audio != Audio #ifdef USE_PIP || old_pip != Pip #endif || old_pass != AudioPassthroughDefault || old_osd_size != OsdSize) { Create(); // update menu } else { for (i = 0; i < RESOLUTIONS; ++i) { if (old_resolution_shown[i] != ResolutionShown[i]) { Create(); // update menu break; } } } } return state; } /** ** Constructor setup menu. ** ** Import global config variables into setup. */ cMenuSetupSoft::cMenuSetupSoft(void) { int i; // // general // General = 0; MakePrimary = ConfigMakePrimary; HideMainMenuEntry = ConfigHideMainMenuEntry; DetachFromMainMenu = ConfigDetachFromMainMenu; // // osd // OsdWidth = ConfigOsdWidth; OsdHeight = ConfigOsdHeight; if (!OsdWidth && !OsdHeight) { OsdSize = 0; } else if (OsdWidth == 1920 && OsdHeight == 1080) { OsdSize = 1; } else if (OsdWidth == 1280 && OsdHeight == 720) { OsdSize = 2; } else { OsdSize = 3; } // // suspend // SuspendClose = ConfigSuspendClose; SuspendX11 = ConfigSuspendX11; // // video // Video = 0; Video4to3DisplayFormat = Config4to3DisplayFormat; VideoOtherDisplayFormat = ConfigOtherDisplayFormat; // no unsigned int menu item supported, split background color/alpha Background = ConfigVideoBackground >> 8; BackgroundAlpha = ConfigVideoBackground & 0xFF; StudioLevels = ConfigVideoStudioLevels; _60HzMode = ConfigVideo60HzMode; SoftStartSync = ConfigVideoSoftStartSync; BlackPicture = ConfigVideoBlackPicture; ClearOnSwitch = ConfigVideoClearOnSwitch; Brightness = ConfigVideoBrightness; Contrast = ConfigVideoContrast; Saturation = ConfigVideoSaturation; Hue = ConfigVideoHue; Gamma = ConfigGamma; Temperature = ConfigTemperature; TargetColorSpace = ConfigTargetColorSpace; ColorBlindness = ConfigColorBlindness; ColorBlindnessFaktor = ConfigColorBlindnessFaktor; // ScalerTest = ConfigScalerTest; for (i = 0; i < RESOLUTIONS; ++i) { ResolutionShown[i] = 0; Scaling[i] = ConfigVideoScaling[i]; Deinterlace[i] = ConfigVideoDeinterlace[i]; SkipChromaDeinterlace[i] = ConfigVideoSkipChromaDeinterlace[i]; InverseTelecine[i] = ConfigVideoInverseTelecine[i]; Denoise[i] = ConfigVideoDenoise[i]; Sharpen[i] = ConfigVideoSharpen[i]; CutTopBottom[i] = ConfigVideoCutTopBottom[i]; CutLeftRight[i] = ConfigVideoCutLeftRight[i]; } // // audio // Audio = 0; AudioDelay = ConfigVideoAudioDelay; AudioDrift = ConfigAudioDrift; AudioPassthroughDefault = AudioPassthroughState; AudioPassthroughPCM = ConfigAudioPassthrough & CodecPCM; AudioPassthroughAC3 = ConfigAudioPassthrough & CodecAC3; AudioPassthroughEAC3 = ConfigAudioPassthrough & CodecEAC3; AudioDownmix = ConfigAudioDownmix; AudioSoftvol = ConfigAudioSoftvol; AudioNormalize = ConfigAudioNormalize; AudioMaxNormalize = ConfigAudioMaxNormalize; AudioCompression = ConfigAudioCompression; AudioMaxCompression = ConfigAudioMaxCompression; AudioStereoDescent = ConfigAudioStereoDescent; AudioBufferTime = ConfigAudioBufferTime; AudioAutoAES = ConfigAudioAutoAES; #ifdef USE_PIP // // PIP // Pip = 0; PipX = ConfigPipX; PipY = ConfigPipY; PipWidth = ConfigPipWidth; PipHeight = ConfigPipHeight; PipVideoX = ConfigPipVideoX; PipVideoY = ConfigPipVideoY; PipVideoWidth = ConfigPipVideoWidth; PipVideoHeight = ConfigPipVideoHeight; PipAltX = ConfigPipAltX; PipAltY = ConfigPipAltY; PipAltWidth = ConfigPipAltWidth; PipAltHeight = ConfigPipAltHeight; PipAltVideoX = ConfigPipAltVideoX; PipAltVideoY = ConfigPipAltVideoY; PipAltVideoWidth = ConfigPipAltVideoWidth; PipAltVideoHeight = ConfigPipAltVideoHeight; #endif #ifdef USE_SCREENSAVER EnableDPMSatBlackScreen = ConfigEnableDPMSatBlackScreen; #endif #ifdef USE_OPENGLOSD MaxSizeGPUImageCache = ConfigMaxSizeGPUImageCache; #endif Create(); } /** ** Store setup. */ void cMenuSetupSoft::Store(void) { int i; SetupStore("MakePrimary", ConfigMakePrimary = MakePrimary); SetupStore("HideMainMenuEntry", ConfigHideMainMenuEntry = HideMainMenuEntry); SetupStore("DetachFromMainMenu", ConfigDetachFromMainMenu = DetachFromMainMenu); switch (OsdSize) { case 0: OsdWidth = 0; OsdHeight = 0; break; case 1: OsdWidth = 1920; OsdHeight = 1080; break; case 2: OsdWidth = 1280; OsdHeight = 720; default: break; } if (ConfigOsdWidth != OsdWidth || ConfigOsdHeight != OsdHeight) { VideoSetOsdSize(ConfigOsdWidth = OsdWidth, ConfigOsdHeight = OsdHeight); // FIXME: shown osd size not updated } SetupStore("Osd.Width", ConfigOsdWidth); SetupStore("Osd.Height", ConfigOsdHeight); SetupStore("Suspend.Close", ConfigSuspendClose = SuspendClose); SetupStore("Suspend.X11", ConfigSuspendX11 = SuspendX11); SetupStore("Video4to3DisplayFormat", Config4to3DisplayFormat = Video4to3DisplayFormat); VideoSet4to3DisplayFormat(Config4to3DisplayFormat); SetupStore("VideoOtherDisplayFormat", ConfigOtherDisplayFormat = VideoOtherDisplayFormat); VideoSetOtherDisplayFormat(ConfigOtherDisplayFormat); ConfigVideoBackground = Background << 8 | (BackgroundAlpha & 0xFF); SetupStore("Background", ConfigVideoBackground); VideoSetBackground(ConfigVideoBackground); SetupStore("StudioLevels", ConfigVideoStudioLevels = StudioLevels); VideoSetStudioLevels(ConfigVideoStudioLevels); SetupStore("60HzMode", ConfigVideo60HzMode = _60HzMode); VideoSet60HzMode(ConfigVideo60HzMode); SetupStore("SoftStartSync", ConfigVideoSoftStartSync = SoftStartSync); VideoSetSoftStartSync(ConfigVideoSoftStartSync); SetupStore("BlackPicture", ConfigVideoBlackPicture = BlackPicture); VideoSetBlackPicture(ConfigVideoBlackPicture); SetupStore("ClearOnSwitch", ConfigVideoClearOnSwitch = ClearOnSwitch); SetupStore("Brightness", ConfigVideoBrightness = Brightness); VideoSetBrightness(ConfigVideoBrightness); SetupStore("Contrast", ConfigVideoContrast = Contrast); VideoSetContrast(ConfigVideoContrast); SetupStore("Saturation", ConfigVideoSaturation = Saturation); VideoSetSaturation(ConfigVideoSaturation); SetupStore("Gamma", ConfigGamma = Gamma); VideoSetGamma(ConfigGamma); SetupStore("Temperature", ConfigTemperature = Temperature); VideoSetTemperature(ConfigTemperature); SetupStore("TargetColorSpace", ConfigTargetColorSpace = TargetColorSpace); VideoSetTargetColor(ConfigTargetColorSpace); SetupStore("Hue", ConfigVideoHue = Hue); VideoSetHue(ConfigVideoHue); SetupStore("CBlindness", ConfigColorBlindness = ColorBlindness); VideoSetColorBlindness(ConfigColorBlindness); SetupStore("CBlindnessFaktor", ConfigColorBlindnessFaktor = ColorBlindnessFaktor); VideoSetColorBlindnessFaktor(ConfigColorBlindnessFaktor); // SetupStore("ScalerTest", ConfigScalerTest = ScalerTest); VideoSetScalerTest(ConfigScalerTest); for (i = 0; i < RESOLUTIONS; ++i) { char buf[128]; snprintf(buf, sizeof(buf), "%s.%s", Resolution[i], "Scaling"); SetupStore(buf, ConfigVideoScaling[i] = Scaling[i]); snprintf(buf, sizeof(buf), "%s.%s", Resolution[i], "Deinterlace"); SetupStore(buf, ConfigVideoDeinterlace[i] = Deinterlace[i]); snprintf(buf, sizeof(buf), "%s.%s", Resolution[i], "SkipChromaDeinterlace"); SetupStore(buf, ConfigVideoSkipChromaDeinterlace[i] = SkipChromaDeinterlace[i]); snprintf(buf, sizeof(buf), "%s.%s", Resolution[i], "InverseTelecine"); SetupStore(buf, ConfigVideoInverseTelecine[i] = InverseTelecine[i]); snprintf(buf, sizeof(buf), "%s.%s", Resolution[i], "Denoise"); SetupStore(buf, ConfigVideoDenoise[i] = Denoise[i]); snprintf(buf, sizeof(buf), "%s.%s", Resolution[i], "Sharpen"); SetupStore(buf, ConfigVideoSharpen[i] = Sharpen[i]); snprintf(buf, sizeof(buf), "%s.%s", Resolution[i], "CutTopBottom"); SetupStore(buf, ConfigVideoCutTopBottom[i] = CutTopBottom[i]); snprintf(buf, sizeof(buf), "%s.%s", Resolution[i], "CutLeftRight"); SetupStore(buf, ConfigVideoCutLeftRight[i] = CutLeftRight[i]); } VideoSetScaling(ConfigVideoScaling); VideoSetDeinterlace(ConfigVideoDeinterlace); VideoSetSkipChromaDeinterlace(ConfigVideoSkipChromaDeinterlace); VideoSetInverseTelecine(ConfigVideoInverseTelecine); VideoSetDenoise(ConfigVideoDenoise); VideoSetSharpen(ConfigVideoSharpen); VideoSetCutTopBottom(ConfigVideoCutTopBottom); VideoSetCutLeftRight(ConfigVideoCutLeftRight); SetupStore("AudioDelay", ConfigVideoAudioDelay = AudioDelay); VideoSetAudioDelay(ConfigVideoAudioDelay); SetupStore("AudioDrift", ConfigAudioDrift = AudioDrift); CodecSetAudioDrift(ConfigAudioDrift); // FIXME: can handle more audio state changes here // downmix changed reset audio, to get change direct if (ConfigAudioDownmix != AudioDownmix) { ResetChannelId(); } ConfigAudioPassthrough = (AudioPassthroughPCM ? CodecPCM : 0) | (AudioPassthroughAC3 ? CodecAC3 : 0) | (AudioPassthroughEAC3 ? CodecEAC3 : 0); AudioPassthroughState = AudioPassthroughDefault; if (AudioPassthroughState) { SetupStore("AudioPassthrough", ConfigAudioPassthrough); CodecSetAudioPassthrough(ConfigAudioPassthrough); } else { SetupStore("AudioPassthrough", -ConfigAudioPassthrough); CodecSetAudioPassthrough(0); } SetupStore("AudioDownmix", ConfigAudioDownmix = AudioDownmix); CodecSetAudioDownmix(ConfigAudioDownmix); SetupStore("AudioSoftvol", ConfigAudioSoftvol = AudioSoftvol); AudioSetSoftvol(ConfigAudioSoftvol); SetupStore("AudioNormalize", ConfigAudioNormalize = AudioNormalize); SetupStore("AudioMaxNormalize", ConfigAudioMaxNormalize = AudioMaxNormalize); AudioSetNormalize(ConfigAudioNormalize, ConfigAudioMaxNormalize); SetupStore("AudioCompression", ConfigAudioCompression = AudioCompression); SetupStore("AudioMaxCompression", ConfigAudioMaxCompression = AudioMaxCompression); AudioSetCompression(ConfigAudioCompression, ConfigAudioMaxCompression); SetupStore("AudioStereoDescent", ConfigAudioStereoDescent = AudioStereoDescent); AudioSetStereoDescent(ConfigAudioStereoDescent); SetupStore("AudioBufferTime", ConfigAudioBufferTime = AudioBufferTime); SetupStore("AudioAutoAES", ConfigAudioAutoAES = AudioAutoAES); AudioSetAutoAES(ConfigAudioAutoAES); #ifdef USE_PIP SetupStore("pip.X", ConfigPipX = PipX); SetupStore("pip.Y", ConfigPipY = PipY); SetupStore("pip.Width", ConfigPipWidth = PipWidth); SetupStore("pip.Height", ConfigPipHeight = PipHeight); SetupStore("pip.VideoX", ConfigPipVideoX = PipVideoX); SetupStore("pip.VideoY", ConfigPipVideoY = PipVideoY); SetupStore("pip.VideoWidth", ConfigPipVideoWidth = PipVideoWidth); SetupStore("pip.VideoHeight", ConfigPipVideoHeight = PipVideoHeight); SetupStore("pip.Alt.X", ConfigPipAltX = PipAltX); SetupStore("pip.Alt.Y", ConfigPipAltY = PipAltY); SetupStore("pip.Alt.Width", ConfigPipAltWidth = PipAltWidth); SetupStore("pip.Alt.Height", ConfigPipAltHeight = PipAltHeight); SetupStore("pip.Alt.VideoX", ConfigPipAltVideoX = PipAltVideoX); SetupStore("pip.Alt.VideoY", ConfigPipAltVideoY = PipAltVideoY); SetupStore("pip.Alt.VideoWidth", ConfigPipAltVideoWidth = PipAltVideoWidth); SetupStore("pip.Alt.VideoHeight", ConfigPipAltVideoHeight = PipAltVideoHeight); #endif #ifdef USE_SCREENSAVER SetupStore("EnableDPMSatBlackScreen", ConfigEnableDPMSatBlackScreen = EnableDPMSatBlackScreen); SetDPMSatBlackScreen(ConfigEnableDPMSatBlackScreen); #endif #ifdef USE_OPENGLOSD SetupStore("MaxSizeGPUImageCache", ConfigMaxSizeGPUImageCache = MaxSizeGPUImageCache); #endif } ////////////////////////////////////////////////////////////////////////////// // cPlayer ////////////////////////////////////////////////////////////////////////////// /** ** Dummy player for suspend mode. */ class cSoftHdPlayer : public cPlayer { protected: public: cSoftHdPlayer(void); virtual ~cSoftHdPlayer(); }; cSoftHdPlayer::cSoftHdPlayer(void) {} cSoftHdPlayer::~cSoftHdPlayer() { Detach(); } ////////////////////////////////////////////////////////////////////////////// // cControl ////////////////////////////////////////////////////////////////////////////// /** ** Dummy control class for suspend mode. */ class cSoftHdControl : public cControl { public: static cSoftHdPlayer *Player; ///< dummy player virtual void Hide(void) ///< hide control {} virtual eOSState ProcessKey(eKeys); ///< process input events cSoftHdControl(void); ///< control constructor virtual ~cSoftHdControl(); ///< control destructor }; cSoftHdPlayer *cSoftHdControl::Player; ///< dummy player instance /** ** Handle a key event. ** ** @param key key pressed */ eOSState cSoftHdControl::ProcessKey(eKeys key) { if (SuspendMode == SUSPEND_NORMAL && (!ISMODELESSKEY(key) || key == kMenu || key == kBack || key == kStop)) { delete Player; Player = NULL; Resume(); SuspendMode = NOT_SUSPENDED; return osEnd; } return osContinue; } /** ** Player control constructor. */ cSoftHdControl::cSoftHdControl(void) : cControl(Player = new cSoftHdPlayer) {} /** ** Player control destructor. */ cSoftHdControl::~cSoftHdControl() { delete Player; Player = NULL; // loose control resume if (SuspendMode == SUSPEND_NORMAL) { Resume(); SuspendMode = NOT_SUSPENDED; } dsyslog("[softhddev]%s: dummy player stopped\n", __FUNCTION__); } ////////////////////////////////////////////////////////////////////////////// // PIP ////////////////////////////////////////////////////////////////////////////// #ifdef USE_PIP extern "C" void DelPip(void); ///< remove PIP static int PipAltPosition; ///< flag alternative position ////////////////////////////////////////////////////////////////////////////// // cReceiver ////////////////////////////////////////////////////////////////////////////// #include /** ** Receiver class for PIP mode. */ class cSoftReceiver : public cReceiver { protected: virtual void Activate(bool); virtual void Receive(const uchar *, int); public: cSoftReceiver(const cChannel *); ///< receiver constructor virtual ~cSoftReceiver(); ///< receiver destructor }; /** ** Receiver constructor. ** ** @param channel channel to receive */ cSoftReceiver::cSoftReceiver(const cChannel *channel) : cReceiver(NULL, MINPRIORITY) { // cReceiver::channelID not setup, this can cause trouble // we want video only AddPid(channel->Vpid()); } /** ** Receiver destructor. */ cSoftReceiver::~cSoftReceiver() { Detach(); } /** ** Called before the receiver gets attached or detached. ** ** @param on flag attached, detached */ void cSoftReceiver::Activate(bool on) { if (on) { int width; int height; double video_aspect; GetOsdSize(&width, &height, &video_aspect); if (PipAltPosition) { PipStart((ConfigPipAltVideoX * width) / 100, (ConfigPipAltVideoY * height) / 100, ConfigPipAltVideoWidth ? (ConfigPipAltVideoWidth * width) / 100 : width, ConfigPipAltVideoHeight ? (ConfigPipAltVideoHeight * height) / 100 : height, (ConfigPipAltX * width) / 100, (ConfigPipAltY * height) / 100, ConfigPipAltWidth ? (ConfigPipAltWidth * width) / 100 : width, ConfigPipAltHeight ? (ConfigPipAltHeight * height) / 100 : height); } else { PipStart((ConfigPipVideoX * width) / 100, (ConfigPipVideoY * height) / 100, ConfigPipVideoWidth ? (ConfigPipVideoWidth * width) / 100 : width, ConfigPipVideoHeight ? (ConfigPipVideoHeight * height) / 100 : height, (ConfigPipX * width) / 100, (ConfigPipY * height) / 100, ConfigPipWidth ? (ConfigPipWidth * width) / 100 : width, ConfigPipHeight ? (ConfigPipHeight * height) / 100 : height); } } else { PipStop(); } } /// /// Parse packetized elementary stream. /// /// @param data payload data of transport stream /// @param size number of payload data bytes /// @param is_start flag, start of pes packet /// static void PipPesParse(const uint8_t *data, int size, int is_start) { static uint8_t *pes_buf; static int pes_size; static int pes_index; // FIXME: quick&dirty if (!pes_buf) { pes_size = 500 * 1024 * 1024; pes_buf = (uint8_t *)malloc(pes_size); if (!pes_buf) { // out of memory, should never happen return; } pes_index = 0; } if (is_start) { // start of pes packet if (pes_index) { if (0) { fprintf(stderr, "pip: PES packet %8d %02x%02x\n", pes_index, pes_buf[2], pes_buf[3]); } if (pes_buf[0] || pes_buf[1] || pes_buf[2] != 0x01) { // FIXME: first should always fail esyslog(tr("[softhddev]pip: invalid PES packet %d\n"), pes_index); } else { PipPlayVideo(pes_buf, pes_index); // FIXME: buffer full: pes packet is dropped } pes_index = 0; } } if (pes_index + size > pes_size) { esyslog(tr("[softhddev]pip: pes buffer too small\n")); pes_size *= 2; if (pes_index + size > pes_size) { pes_size = (pes_index + size) * 2; } pes_buf = (uint8_t *)realloc(pes_buf, pes_size); if (!pes_buf) { // out of memory, should never happen return; } } memcpy(pes_buf + pes_index, data, size); pes_index += size; } /// Transport stream packet size #define TS_PACKET_SIZE 188 /// Transport stream packet sync byte #define TS_PACKET_SYNC 0x47 /** ** Receive TS packet from device. ** ** @param data ts packet ** @param size size (#TS_PACKET_SIZE=188) of tes packet */ void cSoftReceiver::Receive(const uchar *data, int size) { const uint8_t *p; p = data; while (size >= TS_PACKET_SIZE) { int payload; if (p[0] != TS_PACKET_SYNC) { esyslog(tr("[softhddev]tsdemux: transport stream out of sync\n")); // FIXME: kill all buffers return; } if (p[1] & 0x80) { // error indicatord dsyslog("[softhddev]tsdemux: transport error\n"); // FIXME: kill all buffers goto next_packet; } if (0) { int pid; pid = (p[1] & 0x1F) << 8 | p[2]; fprintf(stderr, "tsdemux: PID: %#04x%s%s\n", pid, p[1] & 0x40 ? " start" : "", p[3] & 0x10 ? " payload" : ""); } // skip adaptation field switch (p[3] & 0x30) { // adaption field case 0x00: // reserved case 0x20: // adaptation field only default: goto next_packet; case 0x10: // only payload payload = 4; break; case 0x30: // skip adapation field payload = 5 + p[4]; // illegal length, ignore packet if (payload >= TS_PACKET_SIZE) { dsyslog("[softhddev]tsdemux: illegal adaption field length\n"); goto next_packet; } break; } PipPesParse(p + payload, TS_PACKET_SIZE - payload, p[1] & 0x40); next_packet: p += TS_PACKET_SIZE; size -= TS_PACKET_SIZE; } } ////////////////////////////////////////////////////////////////////////////// static cSoftReceiver *PipReceiver; ///< PIP receiver static int PipChannelNr; ///< last PIP channel number static const cChannel *PipChannel; ///< current PIP channel /** ** Stop PIP. */ extern "C" void DelPip(void) { delete PipReceiver; PipReceiver = NULL; PipChannel = NULL; } /** ** Prepare new PIP. ** ** @param channel_nr channel number */ static void NewPip(int channel_nr) { const cChannel *channel; cDevice *device; cSoftReceiver *receiver; #ifdef DEBUG // is device replaying? if (cDevice::PrimaryDevice()->Replaying() && cControl::Control()) { dsyslog("[softhddev]%s: replay active\n", __FUNCTION__); // FIXME: need to find PID } #endif if (!channel_nr) { channel_nr = cDevice::CurrentChannel(); } LOCK_CHANNELS_READ; if (channel_nr && (channel = Channels->GetByNumber(channel_nr)) && (device = cDevice::GetDevice(channel, 0, false, false))) { DelPip(); device->SwitchChannel(channel, false); receiver = new cSoftReceiver(channel); device->AttachReceiver(receiver); PipReceiver = receiver; PipChannel = channel; PipChannelNr = channel_nr; } } /** ** Toggle PIP on/off. */ static void TogglePip(void) { if (PipReceiver) { int attached; attached = PipReceiver->IsAttached(); DelPip(); if (attached) { // turn off only if last PIP was on return; } } NewPip(PipChannelNr); } /** ** Switch PIP to next available channel. ** ** @param direction direction of channel switch */ static void PipNextAvailableChannel(int direction) { const cChannel *channel; const cChannel *first; channel = PipChannel; first = channel; DelPip(); // disable PIP to free the device LOCK_CHANNELS_READ; while (channel) { bool ndr; cDevice *device; channel = direction > 0 ? Channels->Next(channel) : Channels->Prev(channel); if (!channel && Setup.ChannelsWrap) { channel = direction > 0 ? Channels->First() : Channels->Last(); } if (channel && !channel->GroupSep() && (device = cDevice::GetDevice(channel, 0, false, true)) && device->ProvidesChannel(channel, 0, &ndr) && !ndr) { NewPip(channel->Number()); return; } if (channel == first) { Skins.Message(mtError, tr("Channel not available!")); break; } } } /** ** Swap PIP channels. */ static void SwapPipChannels(void) { const cChannel *channel; channel = PipChannel; DelPip(); NewPip(0); if (channel) { LOCK_CHANNELS_READ; Channels->SwitchTo(channel->Number()); } } /** ** Swap PIP position. */ static void SwapPipPosition(void) { int width; int height; double video_aspect; PipAltPosition ^= 1; if (!PipReceiver) { // no PIP visible, no update needed return; } GetOsdSize(&width, &height, &video_aspect); if (PipAltPosition) { PipSetPosition((ConfigPipAltVideoX * width) / 100, (ConfigPipAltVideoY * height) / 100, ConfigPipAltVideoWidth ? (ConfigPipAltVideoWidth * width) / 100 : width, ConfigPipAltVideoHeight ? (ConfigPipAltVideoHeight * height) / 100 : height, (ConfigPipAltX * width) / 100, (ConfigPipAltY * height) / 100, ConfigPipAltWidth ? (ConfigPipAltWidth * width) / 100 : width, ConfigPipAltHeight ? (ConfigPipAltHeight * height) / 100 : height); } else { PipSetPosition((ConfigPipVideoX * width) / 100, (ConfigPipVideoY * height) / 100, ConfigPipVideoWidth ? (ConfigPipVideoWidth * width) / 100 : width, ConfigPipVideoHeight ? (ConfigPipVideoHeight * height) / 100 : height, (ConfigPipX * width) / 100, (ConfigPipY * height) / 100, ConfigPipWidth ? (ConfigPipWidth * width) / 100 : width, ConfigPipHeight ? (ConfigPipHeight * height) / 100 : height); } } #endif ////////////////////////////////////////////////////////////////////////////// // cOsdMenu ////////////////////////////////////////////////////////////////////////////// /** ** Hotkey parsing state machine. */ typedef enum { HksInitial, ///< initial state HksBlue, ///< blue button pressed HksBlue1, ///< blue and 1 number pressed HksRed, ///< red button pressed } HkState; /** ** Soft device plugin menu class. */ class cSoftHdMenu : public cOsdMenu { private: HkState HotkeyState; ///< current hot-key state int HotkeyCode; ///< current hot-key code void Create(void); ///< create plugin main menu public: cSoftHdMenu(const char *, int = 0, int = 0, int = 0, int = 0, int = 0); virtual ~cSoftHdMenu(); virtual eOSState ProcessKey(eKeys); }; /** ** Create main menu. */ void cSoftHdMenu::Create(void) { int current; int missed; int duped; int dropped; int counter; float frametime; int width, height; int color; int eotf; char *colorstr, *eotfstr; current = Current(); // get current menu item index Clear(); // clear the menu SetHasHotkeys(); if (ConfigDetachFromMainMenu) { Add(new cOsdItem(hk(tr("Detach SoftHdDevice")), osUser1)); } else { Add(new cOsdItem(hk(tr("Suspend SoftHdDevice")), osUser1)); } #ifdef PLACEBO Add(new cOsdItem(hk(tr("Toggle LUT on/off")), osUser2)); #endif #ifdef USE_PIP if (PipReceiver) { Add(new cOsdItem(hk(tr("PIP toggle on/off: off")), osUser3)); } else { Add(new cOsdItem(hk(tr("PIP toggle on/off: on")), osUser3)); } Add(new cOsdItem(hk(tr("PIP channel +")), osUser4)); Add(new cOsdItem(hk(tr("PIP channel -")), osUser5)); if (PipReceiver) { Add(new cOsdItem(hk(tr("PIP on/swap channels: swap")), osUser6)); } else { Add(new cOsdItem(hk(tr("PIP on/swap channels: on")), osUser6)); } if (PipAltPosition) { Add(new cOsdItem(hk(tr("PIP swap position: normal")), osUser7)); } else { Add(new cOsdItem(hk(tr("PIP swap position: alternative")), osUser7)); } Add(new cOsdItem(hk(tr("PIP close")), osUser8)); #endif Add(new cOsdItem(NULL, osUnknown, false)); Add(new cOsdItem(NULL, osUnknown, false)); GetStats(&missed, &duped, &dropped, &counter, &frametime, &width, &height, &color, &eotf); switch (color) { case AVCOL_SPC_RGB: colorstr = strdup("BT 601"); eotfstr = strdup("BT 1886"); break; case AVCOL_SPC_BT709: case AVCOL_SPC_UNSPECIFIED: // comes with UHD colorstr = strdup("BT 709"); eotfstr = strdup("BT 1886"); break; case AVCOL_SPC_BT2020_NCL: colorstr = strdup("BT 2020"); eotfstr = strdup("HDR-HLG"); break; default: // fallback colorstr = strdup("Fallback BT 709"); eotfstr = strdup("BT 1886"); break; } Add(new cOsdItem( cString::sprintf(tr(" Frames missed(%d) duped(%d) dropped(%d) total(%d)"), missed, duped, dropped, counter), osUnknown, false)); Add(new cOsdItem(cString::sprintf(tr(" Video %dx%d Color: %s Gamma: %s"), width, height, colorstr, eotfstr), osUnknown, false)); // Add(new cOsdItem(cString::sprintf(tr(" Frame Process time %2.2fms"), // frametime), osUnknown, false)); SetCurrent(Get(current)); // restore selected menu entry Display(); // display build menu } /** ** Soft device menu constructor. */ cSoftHdMenu::cSoftHdMenu(const char *title, int c0, int c1, int c2, int c3, int c4) : cOsdMenu(title, c0, c1, c2, c3, c4) { HotkeyState = HksInitial; Create(); } /** ** Soft device menu destructor. */ cSoftHdMenu::~cSoftHdMenu() {} /** ** Handle hot key commands. ** ** @param code numeric hot key code */ static void HandleHotkey(int code) { switch (code) { case 10: // disable pass-through AudioPassthroughState = 0; CodecSetAudioPassthrough(0); Skins.QueueMessage(mtInfo, tr("pass-through disabled")); break; case 11: // enable pass-through // note: you can't enable, without configured pass-through AudioPassthroughState = 1; CodecSetAudioPassthrough(ConfigAudioPassthrough); Skins.QueueMessage(mtInfo, tr("pass-through enabled")); break; case 12: // toggle pass-through AudioPassthroughState ^= 1; if (AudioPassthroughState) { CodecSetAudioPassthrough(ConfigAudioPassthrough); Skins.QueueMessage(mtInfo, tr("pass-through enabled")); } else { CodecSetAudioPassthrough(0); Skins.QueueMessage(mtInfo, tr("pass-through disabled")); } break; case 13: // decrease audio delay ConfigVideoAudioDelay -= 10; VideoSetAudioDelay(ConfigVideoAudioDelay); Skins.QueueMessage(mtInfo, cString::sprintf(tr("audio delay changed to %d"), ConfigVideoAudioDelay)); break; case 14: // increase audio delay ConfigVideoAudioDelay += 10; VideoSetAudioDelay(ConfigVideoAudioDelay); Skins.QueueMessage(mtInfo, cString::sprintf(tr("audio delay changed to %d"), ConfigVideoAudioDelay)); break; case 15: ConfigAudioDownmix ^= 1; fprintf(stderr, "toggle downmix\n"); CodecSetAudioDownmix(ConfigAudioDownmix); if (ConfigAudioDownmix) { Skins.QueueMessage(mtInfo, tr("surround downmix enabled")); } else { Skins.QueueMessage(mtInfo, tr("surround downmix disabled")); } ResetChannelId(); break; case 20: // disable full screen VideoSetFullscreen(0); break; case 21: // enable full screen VideoSetFullscreen(1); break; case 22: // toggle full screen VideoSetFullscreen(-1); break; case 30: // change 4:3 -> window mode case 31: case 32: VideoSet4to3DisplayFormat(code - 30); break; case 39: // rotate 4:3 -> window mode VideoSet4to3DisplayFormat(-1); break; case 40: // change 16:9 -> window mode case 41: case 42: VideoSetOtherDisplayFormat(code - 40); break; case 49: // rotate 16:9 -> window mode VideoSetOtherDisplayFormat(-1); break; #ifdef USE_PIP case 102: // PIP toggle TogglePip(); break; case 104: PipNextAvailableChannel(1); break; case 105: PipNextAvailableChannel(-1); break; case 106: SwapPipChannels(); break; case 107: SwapPipPosition(); break; case 108: DelPip(); PipChannelNr = 0; break; #endif default: esyslog(tr("[softhddev]: hot key %d is not supported\n"), code); break; } } /** ** Handle key event. ** ** @param key key event */ eOSState cSoftHdMenu::ProcessKey(eKeys key) { eOSState state; // dsyslog("[softhddev]%s: %x\n", __FUNCTION__, key); switch (HotkeyState) { case HksInitial: // initial state, waiting for hot key if (key == kBlue) { HotkeyState = HksBlue; // blue button return osContinue; } if (key == kRed) { HotkeyState = HksRed; // red button return osContinue; } break; case HksBlue: // blue and first number if (k0 <= key && key <= k9) { HotkeyCode = key - k0; HotkeyState = HksBlue1; return osContinue; } HotkeyState = HksInitial; break; case HksBlue1: // blue and second number/enter if (k0 <= key && key <= k9) { HotkeyCode *= 10; HotkeyCode += key - k0; HotkeyState = HksInitial; dsyslog("[softhddev]%s: hot-key %d\n", __FUNCTION__, HotkeyCode); HandleHotkey(HotkeyCode); return osEnd; } if (key == kOk) { HotkeyState = HksInitial; dsyslog("[softhddev]%s: hot-key %d\n", __FUNCTION__, HotkeyCode); HandleHotkey(HotkeyCode); return osEnd; } HotkeyState = HksInitial; break; case HksRed: // red and first number if (k0 <= key && key <= k9) { HotkeyCode = 100 + key - k0; HotkeyState = HksInitial; HandleHotkey(HotkeyCode); return osEnd; } HotkeyState = HksInitial; break; } // call standard function state = cOsdMenu::ProcessKey(key); switch (state) { case osUser1: // not already suspended if (SuspendMode == NOT_SUSPENDED && !cSoftHdControl::Player) { cControl::Launch(new cSoftHdControl); cControl::Attach(); if (ConfigDetachFromMainMenu) { Suspend(1, 1, 0); SuspendMode = SUSPEND_DETACHED; } else { Suspend(ConfigSuspendClose, ConfigSuspendClose, ConfigSuspendX11); SuspendMode = SUSPEND_NORMAL; } #ifdef USE_OPENGLOSD dsyslog("[softhddev]stopping Ogl Thread osUser1"); cSoftOsdProvider::StopOpenGlThread(); #endif if (ShutdownHandler.GetUserInactiveTime()) { dsyslog("[softhddev]%s: set user inactive\n", __FUNCTION__); ShutdownHandler.SetUserInactive(); } } return osEnd; #ifdef PLACEBO case osUser2: ToggleLUT(); return osEnd; #endif #ifdef USE_PIP case osUser3: TogglePip(); return osEnd; case osUser4: PipNextAvailableChannel(1); return osEnd; case osUser5: PipNextAvailableChannel(-1); return osEnd; case osUser6: SwapPipChannels(); return osEnd; case osUser7: SwapPipPosition(); return osEnd; case osUser8: DelPip(); PipChannelNr = 0; return osEnd; #endif default: Create(); break; } return state; } ////////////////////////////////////////////////////////////////////////////// // cDevice ////////////////////////////////////////////////////////////////////////////// class cSoftHdDevice : public cDevice { public: cSoftHdDevice(void); virtual ~cSoftHdDevice(void); #ifdef CUVID virtual cString DeviceName(void) const { return "softhdcuvid"; } #endif #if defined(VAAPI) && !defined(USE_DRM) virtual cString DeviceName(void) const { return "softhdvaapi"; } #endif #if defined(VAAPI) && defined(USE_DRM) virtual cString DeviceName(void) const { return "softhddrm"; } #endif virtual bool HasDecoder(void) const; virtual bool CanReplay(void) const; virtual bool SetPlayMode(ePlayMode); virtual void TrickSpeed(int, bool); virtual void Clear(void); virtual void Play(void); virtual void Freeze(void); virtual void Mute(void); virtual void StillPicture(const uchar *, int); virtual bool Poll(cPoller &, int = 0); virtual bool Flush(int = 0); virtual int64_t GetSTC(void); virtual cRect CanScaleVideo(const cRect &, int = taCenter); virtual void ScaleVideo(const cRect & = cRect::Null); virtual void SetVideoDisplayFormat(eVideoDisplayFormat); virtual void SetVideoFormat(bool); virtual void GetVideoSize(int &, int &, double &); virtual void GetOsdSize(int &, int &, double &); virtual int PlayVideo(const uchar *, int); virtual int PlayAudio(const uchar *, int, uchar); #ifdef USE_TS_VIDEO virtual int PlayTsVideo(const uchar *, int); #endif #if !defined(USE_AUDIO_THREAD) || !defined(NO_TS_AUDIO) virtual int PlayTsAudio(const uchar *, int); #endif virtual void SetAudioChannelDevice(int); virtual int GetAudioChannelDevice(void); virtual void SetDigitalAudioDevice(bool); virtual void SetAudioTrackDevice(eTrackType); virtual void SetVolumeDevice(int); // Image Grab facilities virtual uchar *GrabImage(int &, bool, int, int, int); #ifdef USE_VDR_SPU // SPU facilities private: cDvbSpuDecoder *spuDecoder; public: virtual cSpuDecoder *GetSpuDecoder(void); #endif protected: virtual void MakePrimaryDevice(bool); }; /** ** Constructor device. */ cSoftHdDevice::cSoftHdDevice(void) { // dsyslog("[softhddev]%s\n", __FUNCTION__); #ifdef USE_VDR_SPU spuDecoder = NULL; #endif } /** ** Destructor device. */ cSoftHdDevice::~cSoftHdDevice(void) { // dsyslog("[softhddev]%s:\n", __FUNCTION__); #ifdef USE_VDR_SPU delete spuDecoder; #endif } /** ** Informs a device that it will be the primary device. ** ** @param on flag if becoming or loosing primary */ void cSoftHdDevice::MakePrimaryDevice(bool on) { dsyslog("[softhddev]%s: %d\n", __FUNCTION__, on); cDevice::MakePrimaryDevice(on); if (on) { new cSoftOsdProvider(); if (SuspendMode == SUSPEND_DETACHED) { Resume(); SuspendMode = NOT_SUSPENDED; } } else if (SuspendMode == NOT_SUSPENDED) { Suspend(1, 1, 0); SuspendMode = SUSPEND_DETACHED; #ifdef USE_OPENGLOSD dsyslog("[softhddev]stopping Ogl Thread MakePrimaryDevice"); cSoftOsdProvider::StopOpenGlThread(); #endif } } #ifdef USE_VDR_SPU /** ** Get the device SPU decoder. ** ** @returns a pointer to the device's SPU decoder (or NULL, if this ** device doesn't have an SPU decoder) */ cSpuDecoder *cSoftHdDevice::GetSpuDecoder(void) { dsyslog("[softhddev]%s:\n", __FUNCTION__); if (!spuDecoder && IsPrimaryDevice()) { spuDecoder = new cDvbSpuDecoder(); } return spuDecoder; } #endif /** ** Tells whether this device has a MPEG decoder. */ bool cSoftHdDevice::HasDecoder(void) const { return true; } /** ** Returns true if this device can currently start a replay session. */ bool cSoftHdDevice::CanReplay(void) const { return true; } /** ** Sets the device into the given play mode. ** ** @param play_mode new play mode (Audio/Video/External...) */ bool cSoftHdDevice::SetPlayMode(ePlayMode play_mode) { dsyslog("[softhddev]%s: %d\n", __FUNCTION__, play_mode); switch (play_mode) { case pmAudioVideo: break; case pmAudioOnly: case pmAudioOnlyBlack: break; case pmVideoOnly: break; case pmNone: break; case pmExtern_THIS_SHOULD_BE_AVOIDED: dsyslog("[softhddev] play mode external\n"); // FIXME: what if already suspended? Setup.CurrentVolume = cDevice::CurrentVolume(); Setup.Save(); Suspend(1, 1, 0); SuspendMode = SUSPEND_EXTERNAL; #ifdef USE_OPENGLOSD dsyslog("[softhddev]stopping Ogl Thread pmExtern_THIS_SHOULD_BE_AVOIDED"); cSoftOsdProvider::StopOpenGlThread(); #endif return true; default: dsyslog("[softhddev] playmode not implemented... %d\n", play_mode); break; } if (SuspendMode != NOT_SUSPENDED) { if (SuspendMode != SUSPEND_EXTERNAL) { return false; } Resume(); SuspendMode = NOT_SUSPENDED; } if (!cDevice::IsMute()) SetVolume(cDevice::CurrentVolume(), true); return ::SetPlayMode(play_mode); } /** ** Gets the current System Time Counter, which can be used to ** synchronize audio, video and subtitles. */ int64_t cSoftHdDevice::GetSTC(void) { // dsyslog("[softhddev]%s:\n", __FUNCTION__); return ::GetSTC(); } /** ** Set trick play speed. ** ** Every single frame shall then be displayed the given number of ** times. ** ** @param speed trick speed ** @param forward flag forward direction */ void cSoftHdDevice::TrickSpeed(int speed, bool forward) { dsyslog("[softhddev]%s: %d %d\n", __FUNCTION__, speed, forward); ::TrickSpeed(speed); } /** ** Clears all video and audio data from the device. */ void cSoftHdDevice::Clear(void) { dsyslog("[softhddev] vom VDR kommt %s:\n", __FUNCTION__); cDevice::Clear(); ::Clear(); } /** ** Sets the device into play mode (after a previous trick mode) */ void cSoftHdDevice::Play(void) { dsyslog("[softhddev]%s:\n", __FUNCTION__); cDevice::Play(); ::Play(); } /** ** Puts the device into "freeze frame" mode. */ void cSoftHdDevice::Freeze(void) { dsyslog("[softhddev]%s:\n", __FUNCTION__); cDevice::Freeze(); ::Freeze(); } /** ** Turns off audio while replaying. */ void cSoftHdDevice::Mute(void) { dsyslog("[softhddev]%s:\n", __FUNCTION__); cDevice::Mute(); ::Mute(); } /** ** Display the given I-frame as a still picture. ** ** @param data pes or ts data of a frame ** @param length length of data area */ void cSoftHdDevice::StillPicture(const uchar *data, int length) { dsyslog("[softhddev]%s: %s %p %d\n", __FUNCTION__, data[0] == 0x47 ? "ts" : "pes", data, length); if (data[0] == 0x47) { // ts sync cDevice::StillPicture(data, length); return; } ::StillPicture(data, length); } /** ** Check if the device is ready for further action. ** ** @param poller file handles (unused) ** @param timeout_ms timeout in ms to become ready ** ** @retval true if ready ** @retval false if busy */ bool cSoftHdDevice::Poll(__attribute__((unused)) cPoller &poller, int timeout_ms) { // dsyslog("[softhddev]%s: %d\n", __FUNCTION__, timeout_ms); return ::Poll(timeout_ms); } /** ** Flush the device output buffers. ** ** @param timeout_ms timeout in ms to become ready */ bool cSoftHdDevice::Flush(int timeout_ms) { dsyslog("[softhddev]%s: %d ms\n", __FUNCTION__, timeout_ms); return ::Flush(timeout_ms); } // ---------------------------------------------------------------------------- /** ** Sets the video display format to the given one (only useful if this ** device has an MPEG decoder). */ void cSoftHdDevice::SetVideoDisplayFormat(eVideoDisplayFormat video_display_format) { dsyslog("[softhddev]%s: %d\n", __FUNCTION__, video_display_format); cDevice::SetVideoDisplayFormat(video_display_format); #if 0 static int last = -1; // called on every channel switch, no need to kill osd... if (last != video_display_format) { last = video_display_format; ::VideoSetDisplayFormat(video_display_format); cSoftOsd::Dirty = 1; } #endif } /** ** Sets the output video format to either 16:9 or 4:3 (only useful ** if this device has an MPEG decoder). ** ** Should call SetVideoDisplayFormat. ** ** @param video_format16_9 flag true 16:9. */ void cSoftHdDevice::SetVideoFormat(bool video_format16_9) { dsyslog("[softhddev]%s: %d\n", __FUNCTION__, video_format16_9); // FIXME: 4:3 / 16:9 video format not supported. SetVideoDisplayFormat(eVideoDisplayFormat(Setup.VideoDisplayFormat)); } /** ** Returns the width, height and video_aspect ratio of the currently ** displayed video material. ** ** @note the video_aspect is used to scale the subtitle. */ void cSoftHdDevice::GetVideoSize(int &width, int &height, double &video_aspect) { ::GetVideoSize(&width, &height, &video_aspect); } /** ** Returns the width, height and pixel_aspect ratio the OSD. ** ** FIXME: Called every second, for nothing (no OSD displayed)? */ void cSoftHdDevice::GetOsdSize(int &width, int &height, double &pixel_aspect) { ::GetOsdSize(&width, &height, &pixel_aspect); } // ---------------------------------------------------------------------------- /** ** Play a audio packet. ** ** @param data exactly one complete PES packet (which is incomplete) ** @param length length of PES packet ** @param id type of audio data this packet holds */ int cSoftHdDevice::PlayAudio(const uchar *data, int length, uchar id) { // dsyslog("[softhddev]%s: %p %p %d %d\n", __FUNCTION__, this, data, length, // id); return ::PlayAudio(data, length, id); } void cSoftHdDevice::SetAudioTrackDevice(__attribute__((unused)) eTrackType type) { // dsyslog("[softhddev]%s:\n", __FUNCTION__); } void cSoftHdDevice::SetDigitalAudioDevice(__attribute__((unused)) bool on) { // dsyslog("[softhddev]%s: %s\n", __FUNCTION__, on ? "true" : "false"); } void cSoftHdDevice::SetAudioChannelDevice(__attribute__((unused)) int audio_channel) { // dsyslog("[softhddev]%s: %d\n", __FUNCTION__, audio_channel); } int cSoftHdDevice::GetAudioChannelDevice(void) { // dsyslog("[softhddev]%s:\n", __FUNCTION__); return 0; } /** ** Sets the audio volume on this device (Volume = 0...255). ** ** @param volume device volume */ void cSoftHdDevice::SetVolumeDevice(int volume) { dsyslog("[softhddev]%s: %d\n", __FUNCTION__, volume); ::SetVolumeDevice(volume); } // ---------------------------------------------------------------------------- /** ** Play a video packet. ** ** @param data exactly one complete PES packet (which is incomplete) ** @param length length of PES packet */ int cSoftHdDevice::PlayVideo(const uchar *data, int length) { // dsyslog("[softhddev]%s: %p %d\n", __FUNCTION__, data, length); return ::PlayVideo(data, length); } #ifdef USE_TS_VIDEO /** ** Play a TS video packet. ** ** @param data ts data buffer ** @param length ts packet length (188) */ int cSoftHdDevice::PlayTsVideo(const uchar *data, int length) {} #endif #if !defined(USE_AUDIO_THREAD) || !defined(NO_TS_AUDIO) /** ** Play a TS audio packet. ** ** @param data ts data buffer ** @param length ts packet length (188) */ int cSoftHdDevice::PlayTsAudio(const uchar *data, int length) { #ifndef NO_TS_AUDIO return ::PlayTsAudio(data, length); #else AudioPoller(); return cDevice::PlayTsAudio(data, length); #endif } #endif /** ** Grabs the currently visible screen image. ** ** @param size size of the returned data ** @param jpeg flag true, create JPEG data ** @param quality JPEG quality ** @param width number of horizontal pixels in the frame ** @param height number of vertical pixels in the frame */ uchar *cSoftHdDevice::GrabImage(int &size, bool jpeg, int quality, int width, int height) { dsyslog("[softhddev]%s: %d, %d, %d, %dx%d\n", __FUNCTION__, size, jpeg, quality, width, height); if (SuspendMode != NOT_SUSPENDED) { return NULL; } if (quality < 0) { // caller should care, but fix it quality = 95; } return ::GrabImage(&size, jpeg, quality, width, height); } /** ** Ask the output, if it can scale video. ** ** @param rect requested video window rectangle ** ** @returns the real rectangle or cRect:Null if invalid. */ cRect cSoftHdDevice::CanScaleVideo(const cRect &rect, __attribute__((unused)) int alignment) { return rect; } /** ** Scale the currently shown video. ** ** @param rect video window rectangle */ void cSoftHdDevice::ScaleVideo(const cRect &rect) { #ifdef OSD_DEBUG dsyslog("[softhddev]%s: %dx%d%+d%+d\n", __FUNCTION__, rect.Width(), rect.Height(), rect.X(), rect.Y()); #endif ::ScaleVideo(rect.X(), rect.Y(), rect.Width(), rect.Height()); } /** ** Call rgb to jpeg for C Plugin. */ extern "C" uint8_t *CreateJpeg(uint8_t *image, int *size, int quality, int width, int height) { return (uint8_t *)RgbToJpeg((uchar *)image, width, height, *size, quality); } ////////////////////////////////////////////////////////////////////////////// // cPlugin ////////////////////////////////////////////////////////////////////////////// class cPluginSoftHdDevice : public cPlugin { public: cPluginSoftHdDevice(void); virtual ~cPluginSoftHdDevice(void); virtual const char *Version(void); virtual const char *Description(void); virtual const char *CommandLineHelp(void); virtual bool ProcessArgs(int, char *[]); virtual bool Initialize(void); virtual bool Start(void); virtual void Stop(void); virtual void Housekeeping(void); virtual void MainThreadHook(void); virtual const char *MainMenuEntry(void); virtual cOsdObject *MainMenuAction(void); virtual cMenuSetupPage *SetupMenu(void); virtual bool SetupParse(const char *, const char *); virtual bool Service(const char *, void * = NULL); virtual const char **SVDRPHelpPages(void); virtual cString SVDRPCommand(const char *, const char *, int &); }; /** ** Initialize any member variables here. ** ** @note DON'T DO ANYTHING ELSE THAT MAY HAVE SIDE EFFECTS, REQUIRE GLOBAL ** VDR OBJECTS TO EXIST OR PRODUCE ANY OUTPUT! */ cPluginSoftHdDevice::cPluginSoftHdDevice(void) { // dsyslog("[softhddev]%s:\n", __FUNCTION__); } /** ** Clean up after yourself! */ cPluginSoftHdDevice::~cPluginSoftHdDevice(void) { // dsyslog("[softhddev]%s:\n", __FUNCTION__); ::SoftHdDeviceExit(); // keep ConfigX11Display ... } /** ** Return plugin version number. ** ** @returns version number as constant string. */ const char *cPluginSoftHdDevice::Version(void) { return VERSION; } /** ** Return plugin short description. ** ** @returns short description as constant string. */ const char *cPluginSoftHdDevice::Description(void) { return tr(DESCRIPTION); } /** ** Return a string that describes all known command line options. ** ** @returns command line help as constant string. */ const char *cPluginSoftHdDevice::CommandLineHelp(void) { return ::CommandLineHelp(); } /** ** Process the command line arguments. */ bool cPluginSoftHdDevice::ProcessArgs(int argc, char *argv[]) { // dsyslog("[softhddev]%s:\n", __FUNCTION__); return ::ProcessArgs(argc, argv); } /** ** Initializes the DVB devices. ** ** Must be called before accessing any DVB functions. ** ** @returns true if any devices are available. */ bool cPluginSoftHdDevice::Initialize(void) { // dsyslog("[softhddev]%s:\n", __FUNCTION__); #if defined PLACEBO const char *d; d = cPlugin::ConfigDirectory("shaders"); strcpy(MyConfigDir, d); #endif MyDevice = new cSoftHdDevice(); return true; } /** ** Start any background activities the plugin shall perform. */ bool cPluginSoftHdDevice::Start(void) { // dsyslog("[softhddev]%s:\n", __FUNCTION__); if (!MyDevice->IsPrimaryDevice()) { isyslog("[softhddev] softhddevice %d is not the primary device!", MyDevice->DeviceNumber()); if (ConfigMakePrimary) { // Must be done in the main thread dsyslog("[softhddev] makeing softhddevice %d the primary device!", MyDevice->DeviceNumber()); DoMakePrimary = MyDevice->DeviceNumber() + 1; } } csoft = new cSoftRemote; switch (::Start()) { case 1: // cControl::Launch(new cSoftHdControl); // cControl::Attach(); // FIXME: VDR overwrites the control SuspendMode = SUSPEND_NORMAL; break; case -1: SuspendMode = SUSPEND_DETACHED; break; case 0: default: break; } return true; } /** ** Shutdown plugin. Stop any background activities the plugin is ** performing. */ void cPluginSoftHdDevice::Stop(void) { // dsyslog("[softhddev]%s:\n", __FUNCTION__); ::Stop(); delete csoft; csoft = NULL; } /** ** Perform any cleanup or other regular tasks. */ void cPluginSoftHdDevice::Housekeeping(void) { // dsyslog("[softhddev]%s:\n", __FUNCTION__); // check if user is inactive, automatic enter suspend mode // FIXME: cControl prevents shutdown, disable this until fixed if (0 && SuspendMode == NOT_SUSPENDED && ShutdownHandler.IsUserInactive()) { // don't overwrite already suspended suspend mode cControl::Launch(new cSoftHdControl); cControl::Attach(); Suspend(ConfigSuspendClose, ConfigSuspendClose, ConfigSuspendX11); SuspendMode = SUSPEND_NORMAL; #ifdef USE_OPENGLOSD dsyslog("[softhddev]stopping Ogl Thread Housekeeping"); cSoftOsdProvider::StopOpenGlThread(); #endif } ::Housekeeping(); } /** ** Create main menu entry. */ const char *cPluginSoftHdDevice::MainMenuEntry(void) { // dsyslog("[softhddev]%s:\n", __FUNCTION__); return ConfigHideMainMenuEntry ? NULL : tr(MAINMENUENTRY); } /** ** Perform the action when selected from the main VDR menu. */ cOsdObject *cPluginSoftHdDevice::MainMenuAction(void) { // dsyslog("[softhddev]%s:\n", __FUNCTION__); return new cSoftHdMenu("SoftHdDevice"); } /** ** Called for every plugin once during every cycle of VDR's main program ** loop. */ void cPluginSoftHdDevice::MainThreadHook(void) { // dsyslog("[softhddev]%s:\n", __FUNCTION__); if (DoMakePrimary) { dsyslog("[softhddev]%s: switching primary device to %d\n", __FUNCTION__, DoMakePrimary); cDevice::SetPrimaryDevice(DoMakePrimary); DoMakePrimary = 0; } ::MainThreadHook(); } /** ** Return our setup menu. */ cMenuSetupPage *cPluginSoftHdDevice::SetupMenu(void) { // dsyslog("[softhddev]%s:\n", __FUNCTION__); return new cMenuSetupSoft; } /** ** Parse setup parameters ** ** @param name paramter name (case sensetive) ** @param value value as string ** ** @returns true if the parameter is supported. */ bool cPluginSoftHdDevice::SetupParse(const char *name, const char *value) { int i; // dsyslog("[softhddev]%s: '%s' = '%s'\n", __FUNCTION__, name, value); if (!strcasecmp(name, "MakePrimary")) { ConfigMakePrimary = atoi(value); return true; } if (!strcasecmp(name, "HideMainMenuEntry")) { ConfigHideMainMenuEntry = atoi(value); return true; } if (!strcasecmp(name, "DetachFromMainMenu")) { ConfigDetachFromMainMenu = atoi(value); return true; } if (!strcasecmp(name, "Osd.Width")) { ConfigOsdWidth = atoi(value); VideoSetOsdSize(ConfigOsdWidth, ConfigOsdHeight); return true; } if (!strcasecmp(name, "Osd.Height")) { ConfigOsdHeight = atoi(value); VideoSetOsdSize(ConfigOsdWidth, ConfigOsdHeight); return true; } if (!strcasecmp(name, "Suspend.Close")) { ConfigSuspendClose = atoi(value); return true; } if (!strcasecmp(name, "Suspend.X11")) { ConfigSuspendX11 = atoi(value); return true; } if (!strcasecmp(name, "Video4to3DisplayFormat")) { Config4to3DisplayFormat = atoi(value); VideoSet4to3DisplayFormat(Config4to3DisplayFormat); return true; } if (!strcasecmp(name, "VideoOtherDisplayFormat")) { ConfigOtherDisplayFormat = atoi(value); VideoSetOtherDisplayFormat(ConfigOtherDisplayFormat); return true; } if (!strcasecmp(name, "Background")) { VideoSetBackground(ConfigVideoBackground = strtoul(value, NULL, 0)); return true; } if (!strcasecmp(name, "StudioLevels")) { VideoSetStudioLevels(ConfigVideoStudioLevels = atoi(value)); return true; } if (!strcasecmp(name, "60HzMode")) { VideoSet60HzMode(ConfigVideo60HzMode = atoi(value)); return true; } if (!strcasecmp(name, "SoftStartSync")) { VideoSetSoftStartSync(ConfigVideoSoftStartSync = atoi(value)); return true; } if (!strcasecmp(name, "BlackPicture")) { VideoSetBlackPicture(ConfigVideoBlackPicture = atoi(value)); return true; } if (!strcasecmp(name, "ClearOnSwitch")) { ConfigVideoClearOnSwitch = atoi(value); return true; } if (!strcasecmp(name, "Brightness")) { int i; i = atoi(value); ConfigVideoBrightness = i > 100 ? 100 : i; VideoSetBrightness(ConfigVideoBrightness); return true; } if (!strcasecmp(name, "Contrast")) { int i; i = atoi(value); ConfigVideoContrast = i > 100 ? 100 : i; VideoSetContrast(ConfigVideoContrast); return true; } if (!strcasecmp(name, "Saturation")) { int i; i = atoi(value); ConfigVideoSaturation = i > 100 ? 100 : i; VideoSetSaturation(ConfigVideoSaturation); return true; } if (!strcasecmp(name, "Gamma")) { int i; i = atoi(value); ConfigGamma = i > 100 ? 100 : i; VideoSetGamma(ConfigGamma); return true; } if (!strcasecmp(name, "Temperature")) { int i; i = atoi(value); ConfigTemperature = i > 100 ? 100 : i; VideoSetTemperature(ConfigTemperature); return true; } if (!strcasecmp(name, "TargetColorSpace")) { VideoSetTargetColor(ConfigTargetColorSpace = atoi(value)); return true; } if (!strcasecmp(name, "Hue")) { VideoSetHue(ConfigVideoHue = atoi(value)); return true; } if (!strcasecmp(name, "CBlindness")) { VideoSetColorBlindness(ConfigColorBlindness = atoi(value)); return true; } if (!strcasecmp(name, "CBlindnessFaktor")) { VideoSetColorBlindnessFaktor(ConfigColorBlindnessFaktor = atoi(value)); return true; } #if 0 if (!strcasecmp(name, "ScalerTest")) { VideoSetScalerTest(ConfigScalerTest = atoi(value)); return true; } #endif for (i = 0; i < RESOLUTIONS; ++i) { char buf[128]; snprintf(buf, sizeof(buf), "%s.%s", Resolution[i], "Scaling"); if (!strcasecmp(name, buf)) { ConfigVideoScaling[i] = atoi(value); VideoSetScaling(ConfigVideoScaling); return true; } snprintf(buf, sizeof(buf), "%s.%s", Resolution[i], "Deinterlace"); if (!strcasecmp(name, buf)) { ConfigVideoDeinterlace[i] = atoi(value); VideoSetDeinterlace(ConfigVideoDeinterlace); return true; } snprintf(buf, sizeof(buf), "%s.%s", Resolution[i], "SkipChromaDeinterlace"); if (!strcasecmp(name, buf)) { ConfigVideoSkipChromaDeinterlace[i] = atoi(value); VideoSetSkipChromaDeinterlace(ConfigVideoSkipChromaDeinterlace); return true; } snprintf(buf, sizeof(buf), "%s.%s", Resolution[i], "InverseTelecine"); if (!strcasecmp(name, buf)) { ConfigVideoInverseTelecine[i] = atoi(value); VideoSetInverseTelecine(ConfigVideoInverseTelecine); return true; } snprintf(buf, sizeof(buf), "%s.%s", Resolution[i], "Denoise"); if (!strcasecmp(name, buf)) { ConfigVideoDenoise[i] = atoi(value); VideoSetDenoise(ConfigVideoDenoise); return true; } snprintf(buf, sizeof(buf), "%s.%s", Resolution[i], "Sharpen"); if (!strcasecmp(name, buf)) { ConfigVideoSharpen[i] = atoi(value); VideoSetSharpen(ConfigVideoSharpen); return true; } snprintf(buf, sizeof(buf), "%s.%s", Resolution[i], "CutTopBottom"); if (!strcasecmp(name, buf)) { ConfigVideoCutTopBottom[i] = atoi(value); VideoSetCutTopBottom(ConfigVideoCutTopBottom); return true; } snprintf(buf, sizeof(buf), "%s.%s", Resolution[i], "CutLeftRight"); if (!strcasecmp(name, buf)) { ConfigVideoCutLeftRight[i] = atoi(value); VideoSetCutLeftRight(ConfigVideoCutLeftRight); return true; } } if (!strcasecmp(name, "AudioDelay")) { VideoSetAudioDelay(ConfigVideoAudioDelay = atoi(value)); return true; } if (!strcasecmp(name, "AudioDrift")) { CodecSetAudioDrift(ConfigAudioDrift = atoi(value)); return true; } if (!strcasecmp(name, "AudioPassthrough")) { int ii; ii = atoi(value); AudioPassthroughState = ii > 0; ConfigAudioPassthrough = abs(ii); if (AudioPassthroughState) { CodecSetAudioPassthrough(ConfigAudioPassthrough); } else { CodecSetAudioPassthrough(0); } return true; } if (!strcasecmp(name, "AudioDownmix")) { CodecSetAudioDownmix(ConfigAudioDownmix = atoi(value)); return true; } if (!strcasecmp(name, "AudioSoftvol")) { AudioSetSoftvol(ConfigAudioSoftvol = atoi(value)); return true; } if (!strcasecmp(name, "AudioNormalize")) { ConfigAudioNormalize = atoi(value); AudioSetNormalize(ConfigAudioNormalize, ConfigAudioMaxNormalize); return true; } if (!strcasecmp(name, "AudioMaxNormalize")) { ConfigAudioMaxNormalize = atoi(value); AudioSetNormalize(ConfigAudioNormalize, ConfigAudioMaxNormalize); return true; } if (!strcasecmp(name, "AudioCompression")) { ConfigAudioCompression = atoi(value); AudioSetCompression(ConfigAudioCompression, ConfigAudioMaxCompression); return true; } if (!strcasecmp(name, "AudioMaxCompression")) { ConfigAudioMaxCompression = atoi(value); AudioSetCompression(ConfigAudioCompression, ConfigAudioMaxCompression); return true; } if (!strcasecmp(name, "AudioStereoDescent")) { ConfigAudioStereoDescent = atoi(value); AudioSetStereoDescent(ConfigAudioStereoDescent); return true; } if (!strcasecmp(name, "AudioBufferTime")) { ConfigAudioBufferTime = atoi(value); AudioSetBufferTime(ConfigAudioBufferTime); return true; } if (!strcasecmp(name, "AudioAutoAES")) { ConfigAudioAutoAES = atoi(value); AudioSetAutoAES(ConfigAudioAutoAES); return true; } #ifdef USE_PIP if (!strcasecmp(name, "pip.X")) { ConfigPipX = atoi(value); return true; } if (!strcasecmp(name, "pip.Y")) { ConfigPipY = atoi(value); return true; } if (!strcasecmp(name, "pip.Width")) { ConfigPipWidth = atoi(value); return true; } if (!strcasecmp(name, "pip.Height")) { ConfigPipHeight = atoi(value); return true; } if (!strcasecmp(name, "pip.VideoX")) { ConfigPipVideoX = atoi(value); return true; } if (!strcasecmp(name, "pip.VideoY")) { ConfigPipVideoY = atoi(value); return true; } if (!strcasecmp(name, "pip.VideoWidth")) { ConfigPipVideoWidth = atoi(value); return true; } if (!strcasecmp(name, "pip.VideoHeight")) { ConfigPipVideoHeight = atoi(value); return true; } if (!strcasecmp(name, "pip.Alt.X")) { ConfigPipAltX = atoi(value); return true; } if (!strcasecmp(name, "pip.Alt.Y")) { ConfigPipAltY = atoi(value); return true; } if (!strcasecmp(name, "pip.Alt.Width")) { ConfigPipAltWidth = atoi(value); return true; } if (!strcasecmp(name, "pip.Alt.Height")) { ConfigPipAltHeight = atoi(value); return true; } if (!strcasecmp(name, "pip.Alt.VideoX")) { ConfigPipAltVideoX = atoi(value); return true; } if (!strcasecmp(name, "pip.Alt.VideoY")) { ConfigPipAltVideoY = atoi(value); return true; } if (!strcasecmp(name, "pip.Alt.VideoWidth")) { ConfigPipAltVideoWidth = atoi(value); return true; } if (!strcasecmp(name, "pip.Alt.VideoHeight")) { ConfigPipAltVideoHeight = atoi(value); return true; } #endif #ifdef USE_SCREENSAVER if (!strcasecmp(name, "EnableDPMSatBlackScreen")) { ConfigEnableDPMSatBlackScreen = atoi(value); SetDPMSatBlackScreen(ConfigEnableDPMSatBlackScreen); return true; } #endif #ifdef USE_OPENGLOSD if (!strcasecmp(name, "MaxSizeGPUImageCache")) { ConfigMaxSizeGPUImageCache = atoi(value); return true; } #endif return false; } /** ** Receive requests or messages. ** ** @param id unique identification string that identifies the ** service protocol ** @param data custom data structure */ bool cPluginSoftHdDevice::Service(const char *id, void *data) { // dsyslog("[softhddev]%s: id %s\n", __FUNCTION__, id); if (strcmp(id, OSD_3DMODE_SERVICE) == 0) { SoftHDDevice_Osd3DModeService_v1_0_t *r; r = (SoftHDDevice_Osd3DModeService_v1_0_t *)data; VideoSetOsd3DMode(r->Mode); return true; } if (strcmp(id, ATMO_GRAB_SERVICE) == 0) { int width; int height; if (data == NULL) { return true; } if (SuspendMode != NOT_SUSPENDED) { return false; } SoftHDDevice_AtmoGrabService_v1_0_t *r = (SoftHDDevice_AtmoGrabService_v1_0_t *)data; if (r->structSize != sizeof(SoftHDDevice_AtmoGrabService_v1_0_t) || r->analyseSize < 64 || r->analyseSize > 256 || r->clippedOverscan < 0 || r->clippedOverscan > 200) { return false; } width = r->analyseSize * -1; // Internal marker for Atmo grab service height = r->clippedOverscan; r->img = VideoGrabService(&r->imgSize, &width, &height); if (r->img == NULL) { return false; } r->imgType = GRAB_IMG_RGBA_FORMAT_B8G8R8A8; r->width = width; r->height = height; return true; } if (strcmp(id, ATMO1_GRAB_SERVICE) == 0) { SoftHDDevice_AtmoGrabService_v1_1_t *r; if (!data) { return true; } if (SuspendMode != NOT_SUSPENDED) { return false; } r = (SoftHDDevice_AtmoGrabService_v1_1_t *)data; r->img = VideoGrabService(&r->size, &r->width, &r->height); if (!r->img) { return false; } return true; } return false; } //---------------------------------------------------------------------------- // cPlugin SVDRP //---------------------------------------------------------------------------- /** ** SVDRP commands help text. ** FIXME: translation? */ static const char *SVDRPHelpText[] = {"SUSP\n" "\040 Suspend plugin.\n\n" " The plugin is suspended to save energie. Depending on the setup\n" " 'softhddevice.Suspend.Close = 0' only the video and audio output\n" " is stopped or with 'softhddevice.Suspend.Close = 1' the video\n" " and audio devices are closed.\n" " If 'softhddevice.Suspend.X11 = 1' is set and the X11 server was\n" " started by the plugin, the X11 server would also be closed.\n" " (Stopping X11 while suspended isn't supported yet)\n", "RESU\n" "\040 Resume plugin.\n\n" " Resume the suspended plugin. The plugin could be suspended by\n" " the command line option '-s' or by a previous SUSP command.\n" " If the x11 server was stopped by the plugin, it will be\n" " restarted.", "DETA\n" "\040 Detach plugin.\n\n" " The plugin will be detached from the audio, video and DVB\n" " devices. Other programs or plugins can use them now.\n", "ATTA <-d display> <-a audio> <-p pass>\n" " Attach plugin.\n\n" " Attach the plugin to audio, video and DVB devices. Use:\n" " -d display\tdisplay of x11 server (fe. :0.0)\n" " -a audio\taudio device (fe. alsa: hw:0,0 oss: /dev/dsp)\n" " -p pass\t\taudio device for pass-through (hw:0,1 or /dev/dsp1)\n", "PRIM \n" " Make the primary device.\n\n" " is the number of device. Without number softhddevice becomes\n" " the primary device. If becoming primary, the plugin is attached\n" " to the devices. If loosing primary, the plugin is detached from\n" " the devices.", "HOTK key\n" " Execute hotkey.\n\n" " key is the hotkey number, following are supported:\n" " 10: disable audio pass-through\n" " 11: enable audio pass-through\n" " 12: toggle audio pass-through\n" " 13: decrease audio delay by 10ms\n" " 14: increase audio delay by 10ms\n" " 15: toggle ac3 mixdown\n" " 20: disable fullscreen\n\040 21: enable fullscreen\n" " 22: toggle fullscreen\n" " 30: stretch 4:3 to display\n\040 31: pillar box 4:3 in display\n" " 32: center cut-out 4:3 to display\n" " 39: rotate 4:3 to display zoom mode\n" " 40: stretch other aspect ratios to display\n" " 41: letter box other aspect ratios in display\n" " 42: center cut-out other aspect ratios to display\n" " 49: rotate other aspect ratios to display zoom mode\n", "STAT\n" "\040 Display SuspendMode of the plugin.\n\n" " reply code is 910 + SuspendMode\n" " SUSPEND_EXTERNAL == -1 (909)\n" " NOT_SUSPENDED == 0 (910)\n" " SUSPEND_NORMAL == 1 (911)\n" " SUSPEND_DETACHED == 2 (912)\n", "RAIS\n" "\040 Raise softhddevice window\n\n" " If Xserver is not started by softhddevice, the window which\n" " contains the softhddevice frontend will be raised to the front.\n", NULL}; /** ** Return SVDRP commands help pages. ** ** return a pointer to a list of help strings for all of the plugin's ** SVDRP commands. */ const char **cPluginSoftHdDevice::SVDRPHelpPages(void) { return SVDRPHelpText; } /** ** Handle SVDRP commands. ** ** @param command SVDRP command ** @param option all command arguments ** @param reply_code reply code */ cString cPluginSoftHdDevice::SVDRPCommand(const char *command, const char *option, __attribute__((unused)) int &reply_code) { if (!strcasecmp(command, "STAT")) { reply_code = 910 + SuspendMode; switch (SuspendMode) { case SUSPEND_EXTERNAL: return "SuspendMode is SUSPEND_EXTERNAL"; case NOT_SUSPENDED: return "SuspendMode is NOT_SUSPENDED"; case SUSPEND_NORMAL: return "SuspendMode is SUSPEND_NORMAL"; case SUSPEND_DETACHED: return "SuspendMode is SUSPEND_DETACHED"; } } if (!strcasecmp(command, "SUSP")) { if (cSoftHdControl::Player) { // already suspended return "SoftHdDevice already suspended"; } if (SuspendMode != NOT_SUSPENDED) { return "SoftHdDevice already detached"; } #ifdef USE_OPENGLOSD dsyslog("[softhddev]stopping Ogl Thread svdrp STAT"); cSoftOsdProvider::StopOpenGlThread(); #endif cControl::Launch(new cSoftHdControl); cControl::Attach(); Suspend(ConfigSuspendClose, ConfigSuspendClose, ConfigSuspendX11); SuspendMode = SUSPEND_NORMAL; return "SoftHdDevice is suspended"; } if (!strcasecmp(command, "RESU")) { if (SuspendMode == NOT_SUSPENDED) { return "SoftHdDevice already resumed"; } if (SuspendMode != SUSPEND_NORMAL) { return "can't resume SoftHdDevice"; } if (ShutdownHandler.GetUserInactiveTime()) { ShutdownHandler.SetUserInactiveTimeout(); } if (cSoftHdControl::Player) { // suspended cControl::Shutdown(); // not need, if not suspended } Resume(); SuspendMode = NOT_SUSPENDED; return "SoftHdDevice is resumed"; } if (!strcasecmp(command, "DETA")) { if (SuspendMode == SUSPEND_DETACHED) { return "SoftHdDevice already detached"; } if (cSoftHdControl::Player) { // already suspended return "can't suspend SoftHdDevice already suspended"; } #ifdef USE_OPENGLOSD dsyslog("[softhddev]stopping Ogl Thread svdrp DETA"); cSoftOsdProvider::StopOpenGlThread(); #endif cControl::Launch(new cSoftHdControl); cControl::Attach(); Suspend(1, 1, 0); SuspendMode = SUSPEND_DETACHED; return "SoftHdDevice is detached"; } if (!strcasecmp(command, "ATTA")) { char *tmp; char *t; char *s; char *o; if (SuspendMode != SUSPEND_DETACHED) { return "can't attach SoftHdDevice not detached"; } if (!(tmp = strdup(option))) { return "out of memory"; } t = tmp; while ((s = strsep(&t, " \t\n\r"))) { if (!strcmp(s, "-d")) { if (!(o = strsep(&t, " \t\n\r"))) { free(tmp); return "missing option argument"; } free(ConfigX11Display); ConfigX11Display = strdup(o); X11DisplayName = ConfigX11Display; } else if (!strncmp(s, "-d", 2)) { free(ConfigX11Display); ConfigX11Display = strdup(s + 2); X11DisplayName = ConfigX11Display; } else if (!strcmp(s, "-a")) { if (!(o = strsep(&t, " \t\n\r"))) { free(tmp); return "missing option argument"; } free(ConfigAudioDevice); ConfigAudioDevice = strdup(o); AudioSetDevice(ConfigAudioDevice); } else if (!strncmp(s, "-a", 2)) { free(ConfigAudioDevice); ConfigAudioDevice = strdup(s + 2); AudioSetDevice(ConfigAudioDevice); } else if (!strcmp(s, "-p")) { if (!(o = strsep(&t, " \t\n\r"))) { free(tmp); return "missing option argument"; } free(ConfigPassthroughDevice); ConfigPassthroughDevice = strdup(o); AudioSetPassthroughDevice(ConfigPassthroughDevice); } else if (!strncmp(s, "-p", 2)) { free(ConfigPassthroughDevice); ConfigPassthroughDevice = strdup(s + 2); AudioSetPassthroughDevice(ConfigPassthroughDevice); } else if (*s) { free(tmp); return "unsupported option"; } } free(tmp); if (ShutdownHandler.GetUserInactiveTime()) { ShutdownHandler.SetUserInactiveTimeout(); } if (cSoftHdControl::Player) { // suspended cControl::Shutdown(); // not need, if not suspended } Resume(); SuspendMode = NOT_SUSPENDED; return "SoftHdDevice is attached"; } if (!strcasecmp(command, "HOTK")) { int hotk; hotk = strtol(option, NULL, 0); HandleHotkey(hotk); return "hot-key executed"; } if (!strcasecmp(command, "PRIM")) { int primary; primary = strtol(option, NULL, 0); if (!primary && MyDevice) { primary = MyDevice->DeviceNumber() + 1; } dsyslog("[softhddev] switching primary device to %d\n", primary); DoMakePrimary = primary; return "switching primary device requested"; } if (!strcasecmp(command, "3DOF")) { VideoSetOsd3DMode(0); return "3d off"; } if (!strcasecmp(command, "3DSB")) { VideoSetOsd3DMode(1); return "3d sbs"; } if (!strcasecmp(command, "3DTB")) { VideoSetOsd3DMode(2); return "3d tb"; } if (!strcasecmp(command, "RAIS")) { if (!ConfigStartX11Server) { VideoRaiseWindow(); } else { return "Raise not possible"; } return "Window raised"; } return NULL; } VDRPLUGINCREATOR(cPluginSoftHdDevice); // Don't touch this!