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vdr/epg.h
Klaus Schmidinger 5076cfb2ed Version 2.1.1 
VDR developer version 2.1.1 is now available at

       ftp://ftp.tvdr.de/vdr/Developer/vdr-2.1.1.tar.bz2

A 'diff' against the previous version is available at

       ftp://ftp.tvdr.de/vdr/Developer/vdr-2.0.0-2.1.1.diff

MD5 checksums:

b17f9838bb8ddee9620f838fea7a171d  vdr-2.1.1.tar.bz2
8b8ca593885c380cd370e6d19a5b16a1  vdr-2.0.0-2.1.1.diff

WARNING:
========

This is a *developer* version. Even though *I* use it in my productive
environment, I strongly recommend that you only use it under controlled
conditions and for testing and debugging.

The main focus of this version is on adding basic support for positioners
to control steerable satellite dishes. Manually controlling the dish position
and storing individual positions will follow later.

The fixes contained in this version will be released in a stable version 2.0.3
later, if there are no problems.

From the HISTORY file:
- Fixed initializing cDevice::keepTracks.
- Fixed an endless loop in cTextWrapper::Set() in case the given Width is smaller than
  one character (reported by Stefan Braun).
- Removed all "modified since version 1.6" markers from PLUGINS.html.
- Added definitions for older DVB API versions, back until 5.0 (based on a patch from
  Udo Richter).
- Changed cThread::SetIOPriority() from "best effort class" to "idle class" in order to
  improve overall performance when an editing process is running (thanks to Jochen
  Dolze).
- Fixed handling '/' and '~' in recording file names in case DirectoryEncoding is
  used (thanks to Lars Hanisch).
- Changed the sign of the satellite position value in cSource to reflect the standard
  of western values being negative. The new member function cSource::Position() can be
  used to retrieve the orbital position of a satellite.
- Fixed multiple occurrences of the same directory in the recordings list in case there
  are directories that only differ in non-alphanumeric characters (was broken by
  "Fixed selecting the last replayed recording in the Recordings menu in case there
  are folders and plain recordings with names that differ only in non-alphanumeric
  characters" in version 1.7.36).
- Fixed displaying the frame number when setting an editing mark (thanks to Thomas
  Günther).
- Fixed no longer generating any editing marks if the edited recording results in just
  one single sequence (reported by Halim Sahin).
- Fixed an error message when parsing SCR values in diseqc.conf.
- Fixed an unexpected RCS version tag in the newplugin script.
- Fixed an endless loop in the DrawEllipse() functions for very small ellipses (reported
  by Stefan Braun).
- Fixed a crash in the LCARS skin's main menu in case there is no current channel
  (reported by Dominique Dumont).
- Added basic support for positioners to control steerable satellite dishes (based on
  a patch from Seppo Ingalsuo and Ales Jurik).
  + Supports GotoN (aka "DiSEqC 1.2") and GotoX (aka "USALS").
  + The new DiSEqC command code 'P' can be used to instruct a positioner to move the
    dish to the required satellite position. When a 'P' code is processed, further
    execution of the remaining DiSEqC sequence (if any) is postponed until the positioner
    has reached the new satellite position.
  + The new special source value of "S360E" can be used in diseqc.conf to indicate that
    an entry using a positioner can move the dish to any requested position within its
    range. Think of it as "full circle".
  + The devices a particular cDiseqc or cScr applies to are now stored directly in each
    cDiseqc or cScr, respectively.
  + A plugin can implement a custom positioner control (see PLUGINS.html, section "Positioners").
  + The new function cSkinDisplayChannel::SetPositioner() can be implemented by skins to
    show the user a progress display when the dish is being moved. The default implementation
    calls SetMessage() with a string indicating the new position the dish is being moved to.
    The LCARS skin shows a progress bar indicating the movement of the dish.
  + The new parameters "Site latitude", "Site longitude", "Positioner speed", and
    "Positioner swing" in the "Setup/LNB" menu can be used to configure the necessary
    values for a steerable dish.
  + The cDvbTuner now has a new status tsPositioning, in which it waits until a steerable
    dish has reached its target position. Parsing SI data is paused until the target
    position has been reached.
- The LCARS skin now shows the source value of the current channel in its channel display.
- Fixed asserting free disk space in the cutter.
- No longer trying to delete old recordings in AssertFreeDiskSpace() if the given
  Priority is less than 1.
- Fixed handling LIRC events in case repeated events are lost.
- Fixed a possible crash when shutting down VDR while subtitles are being displayed
  (reported by Ville Skyttä).
- cDevice::IsPrimaryDevice() now also checks whether the primary device actually has
  a decoder and returns false otherwise. This should improve device allocation on
  systems that are only used as a receiver and don't actually display anything.
- Increased the value of MAXRETRIES to 20 to reduce the probability of disturbances
  in transfer mode.
- All bonded devices (except for the master) now turn off their LNB power completely
  to avoid problems when receiving vertically polarized transponders (suggested by
  Manfred Völkel and Oliver Endriss).
- Reverted the change from version 1.5.7 that made all logging go to LOG_ERR (thanks
  to Christopher Reimer).
- Added Begin/EndSegmentTransfer() to the EPG handler interface (thanks to Jörg Wendel).
- The code for distributing recordings over several video directories is now
  deprecated and disabled by default.
  You can re-enable this feature by removing the comment sign ('//') from the beginning
  of the line
  //#define DEPRECATED_DISTRIBUTED_VIDEODIR // Code enclosed with this macro is ...
  in the file videodir.c. Note, though, that this can only be a temporary workaround.
  This feature will be completely removed in one of the next developer versions.
  Distributing the video directory over several disks was a useful feature in times
  when disks were still relatively small, but it also caused serious problems in case
  one of the disks failed. Nowadays hard disks come in sizes measured in terabytes,
  and tools like "mhddfs" can be used to combine several disks to form one large volume.
  A recommended method for a relatively safe disk setup in a VDR system is to use two
  1TB (or larger) disks and use them as a RAID-1 (mirrored). That way, if one disk
  fails, you can replace it without data loss.
2013-08-25 18:40:45 +02:00

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/*
* epg.h: Electronic Program Guide
*
* See the main source file 'vdr.c' for copyright information and
* how to reach the author.
*
* Original version (as used in VDR before 1.3.0) written by
* Robert Schneider <Robert.Schneider@web.de> and Rolf Hakenes <hakenes@hippomi.de>.
*
* $Id: epg.h 3.1 2013/08/23 10:50:05 kls Exp $
*/
#ifndef __EPG_H
#define __EPG_H
#include "channels.h"
#include "libsi/section.h"
#include "thread.h"
#include "tools.h"
#define MAXEPGBUGFIXLEVEL 3
enum { MaxEventContents = 4 };
enum eEventContentGroup {
ecgMovieDrama = 0x10,
ecgNewsCurrentAffairs = 0x20,
ecgShow = 0x30,
ecgSports = 0x40,
ecgChildrenYouth = 0x50,
ecgMusicBalletDance = 0x60,
ecgArtsCulture = 0x70,
ecgSocialPoliticalEconomics = 0x80,
ecgEducationalScience = 0x90,
ecgLeisureHobbies = 0xA0,
ecgSpecial = 0xB0,
ecgUserDefined = 0xF0
};
enum eDumpMode { dmAll, dmPresent, dmFollowing, dmAtTime };
struct tComponent {
uchar stream;
uchar type;
char language[MAXLANGCODE2];
char *description;
cString ToString(void);
bool FromString(const char *s);
};
class cComponents {
private:
int numComponents;
tComponent *components;
bool Realloc(int Index);
public:
cComponents(void);
~cComponents(void);
int NumComponents(void) const { return numComponents; }
void SetComponent(int Index, const char *s);
void SetComponent(int Index, uchar Stream, uchar Type, const char *Language, const char *Description);
tComponent *Component(int Index) const { return (Index < numComponents) ? &components[Index] : NULL; }
tComponent *GetComponent(int Index, uchar Stream, uchar Type); // Gets the Index'th component of Stream and Type, skipping other components
// In case of an audio stream the 'type' check actually just distinguishes between "normal" and "Dolby Digital"
};
class cSchedule;
typedef u_int32_t tEventID;
class cEvent : public cListObject {
friend class cSchedule;
private:
// The sequence of these parameters is optimized for minimal memory waste!
cSchedule *schedule; // The Schedule this event belongs to
tEventID eventID; // Event ID of this event
uchar tableID; // Table ID this event came from
uchar version; // Version number of section this event came from
uchar runningStatus; // 0=undefined, 1=not running, 2=starts in a few seconds, 3=pausing, 4=running
uchar parentalRating; // Parental rating of this event
char *title; // Title of this event
char *shortText; // Short description of this event (typically the episode name in case of a series)
char *description; // Description of this event
cComponents *components; // The stream components of this event
uchar contents[MaxEventContents]; // Contents of this event
time_t startTime; // Start time of this event
int duration; // Duration of this event in seconds
time_t vps; // Video Programming Service timestamp (VPS, aka "Programme Identification Label", PIL)
time_t seen; // When this event was last seen in the data stream
public:
cEvent(tEventID EventID);
~cEvent();
virtual int Compare(const cListObject &ListObject) const;
tChannelID ChannelID(void) const;
const cSchedule *Schedule(void) const { return schedule; }
tEventID EventID(void) const { return eventID; }
uchar TableID(void) const { return tableID; }
uchar Version(void) const { return version; }
int RunningStatus(void) const { return runningStatus; }
const char *Title(void) const { return title; }
const char *ShortText(void) const { return shortText; }
const char *Description(void) const { return description; }
const cComponents *Components(void) const { return components; }
uchar Contents(int i = 0) const { return (0 <= i && i < MaxEventContents) ? contents[i] : uchar(0); }
int ParentalRating(void) const { return parentalRating; }
time_t StartTime(void) const { return startTime; }
time_t EndTime(void) const { return startTime + duration; }
int Duration(void) const { return duration; }
time_t Vps(void) const { return vps; }
time_t Seen(void) const { return seen; }
bool SeenWithin(int Seconds) const { return time(NULL) - seen < Seconds; }
bool HasTimer(void) const;
bool IsRunning(bool OrAboutToStart = false) const;
static const char *ContentToString(uchar Content);
cString GetParentalRatingString(void) const;
cString GetDateString(void) const;
cString GetTimeString(void) const;
cString GetEndTimeString(void) const;
cString GetVpsString(void) const;
void SetEventID(tEventID EventID);
void SetTableID(uchar TableID);
void SetVersion(uchar Version);
void SetRunningStatus(int RunningStatus, cChannel *Channel = NULL);
void SetTitle(const char *Title);
void SetShortText(const char *ShortText);
void SetDescription(const char *Description);
void SetComponents(cComponents *Components); // Will take ownership of Components!
void SetContents(uchar *Contents);
void SetParentalRating(int ParentalRating);
void SetStartTime(time_t StartTime);
void SetDuration(int Duration);
void SetVps(time_t Vps);
void SetSeen(void);
cString ToDescr(void) const;
void Dump(FILE *f, const char *Prefix = "", bool InfoOnly = false) const;
bool Parse(char *s);
static bool Read(FILE *f, cSchedule *Schedule);
void FixEpgBugs(void);
};
class cSchedules;
class cSchedule : public cListObject {
private:
tChannelID channelID;
cList<cEvent> events;
cHash<cEvent> eventsHashID;
cHash<cEvent> eventsHashStartTime;
bool hasRunning;
time_t modified;
time_t presentSeen;
public:
cSchedule(tChannelID ChannelID);
tChannelID ChannelID(void) const { return channelID; }
time_t Modified(void) const { return modified; }
time_t PresentSeen(void) const { return presentSeen; }
bool PresentSeenWithin(int Seconds) const { return time(NULL) - presentSeen < Seconds; }
void SetModified(void) { modified = time(NULL); }
void SetPresentSeen(void) { presentSeen = time(NULL); }
void SetRunningStatus(cEvent *Event, int RunningStatus, cChannel *Channel = NULL);
void ClrRunningStatus(cChannel *Channel = NULL);
void ResetVersions(void);
void Sort(void);
void DropOutdated(time_t SegmentStart, time_t SegmentEnd, uchar TableID, uchar Version);
void Cleanup(time_t Time);
void Cleanup(void);
cEvent *AddEvent(cEvent *Event);
void DelEvent(cEvent *Event);
void HashEvent(cEvent *Event);
void UnhashEvent(cEvent *Event);
const cList<cEvent> *Events(void) const { return &events; }
const cEvent *GetPresentEvent(void) const;
const cEvent *GetFollowingEvent(void) const;
const cEvent *GetEvent(tEventID EventID, time_t StartTime = 0) const;
const cEvent *GetEventAround(time_t Time) const;
void Dump(FILE *f, const char *Prefix = "", eDumpMode DumpMode = dmAll, time_t AtTime = 0) const;
static bool Read(FILE *f, cSchedules *Schedules);
};
class cSchedulesLock {
private:
bool locked;
public:
cSchedulesLock(bool WriteLock = false, int TimeoutMs = 0);
~cSchedulesLock();
bool Locked(void) { return locked; }
};
class cSchedules : public cList<cSchedule> {
friend class cSchedule;
friend class cSchedulesLock;
private:
cRwLock rwlock;
static cSchedules schedules;
static char *epgDataFileName;
static time_t lastDump;
static time_t modified;
public:
static void SetEpgDataFileName(const char *FileName);
static const cSchedules *Schedules(cSchedulesLock &SchedulesLock);
///< Caller must provide a cSchedulesLock which has to survive the entire
///< time the returned cSchedules is accessed. Once the cSchedules is no
///< longer used, the cSchedulesLock must be destroyed.
static time_t Modified(void) { return modified; }
static void SetModified(cSchedule *Schedule);
static void Cleanup(bool Force = false);
static void ResetVersions(void);
static bool ClearAll(void);
static bool Dump(FILE *f = NULL, const char *Prefix = "", eDumpMode DumpMode = dmAll, time_t AtTime = 0);
static bool Read(FILE *f = NULL);
cSchedule *AddSchedule(tChannelID ChannelID);
const cSchedule *GetSchedule(tChannelID ChannelID) const;
const cSchedule *GetSchedule(const cChannel *Channel, bool AddIfMissing = false) const;
};
class cEpgDataReader : public cThread {
public:
cEpgDataReader(void);
virtual void Action(void);
};
void ReportEpgBugFixStats(bool Force = false);
class cEpgHandler : public cListObject {
public:
cEpgHandler(void);
///< Constructs a new EPG handler and adds it to the list of EPG handlers.
///< Whenever an event is received from the EIT data stream, the EPG
///< handlers are queried in the order they have been created.
///< As soon as one of the EPG handlers returns true in a member function,
///< none of the remaining handlers will be queried. If none of the EPG
///< handlers returns true in a particular call, the default processing
///< will take place.
///< EPG handlers will be deleted automatically at the end of the program.
virtual ~cEpgHandler();
virtual bool IgnoreChannel(const cChannel *Channel) { return false; }
///< Before any EIT data for the given Channel is processed, the EPG handlers
///< are asked whether this Channel shall be completely ignored. If any of
///< the EPG handlers returns true in this function, no EIT data at all will
///< be processed for this Channel.
virtual bool HandleEitEvent(cSchedule *Schedule, const SI::EIT::Event *EitEvent, uchar TableID, uchar Version) { return false; }
///< Before the raw EitEvent for the given Schedule is processed, the
///< EPG handlers are queried to see if any of them would like to do the
///< complete processing by itself. TableID and Version are from the
///< incoming section data.
virtual bool HandledExternally(const cChannel *Channel) { return false; }
///< If any EPG handler returns true in this function, it is assumed that
///< the EPG for the given Channel is handled completely from some external
///< source. Incoming EIT data is processed as usual, but any new EPG event
///< will not be added to the respective schedule. It's up to the EPG
///< handler to take care of this.
virtual bool IsUpdate(tEventID EventID, time_t StartTime, uchar TableID, uchar Version) { return false; }
///< VDR can't perform the update check (version, tid) for externally handled events,
///< therefore the EPG handlers have to take care of this. Otherwise the parsing of
///< non-updates will waste a lot of resources.
virtual bool SetEventID(cEvent *Event, tEventID EventID) { return false; }
virtual bool SetTitle(cEvent *Event, const char *Title) { return false; }
virtual bool SetShortText(cEvent *Event, const char *ShortText) { return false; }
virtual bool SetDescription(cEvent *Event, const char *Description) { return false; }
virtual bool SetContents(cEvent *Event, uchar *Contents) { return false; }
virtual bool SetParentalRating(cEvent *Event, int ParentalRating) { return false; }
virtual bool SetStartTime(cEvent *Event, time_t StartTime) { return false; }
virtual bool SetDuration(cEvent *Event, int Duration) { return false; }
virtual bool SetVps(cEvent *Event, time_t Vps) { return false; }
virtual bool SetComponents(cEvent *Event, cComponents *Components) { return false; }
virtual bool FixEpgBugs(cEvent *Event) { return false; }
///< Fixes some known problems with EPG data.
virtual bool HandleEvent(cEvent *Event) { return false; }
///< After all modifications of the Event have been done, the EPG handler
///< can take a final look at it.
virtual bool SortSchedule(cSchedule *Schedule) { return false; }
///< Sorts the Schedule after the complete table has been processed.
virtual bool DropOutdated(cSchedule *Schedule, time_t SegmentStart, time_t SegmentEnd, uchar TableID, uchar Version) { return false; }
///< Takes a look at all EPG events between SegmentStart and SegmentEnd and
///< drops outdated events.
virtual bool BeginSegmentTransfer(const cChannel *Channel, bool OnlyRunningStatus) { return false; }
///< Called directly after IgnoreChannel() before any other handler method is called.
///< Designed to give handlers the possibility to prepare a database transaction.
virtual bool EndSegmentTransfer(bool Modified, bool OnlyRunningStatus) { return false; }
///< Called after the segment data has been processed.
///< At this point handlers should close/commit/rollback any pending database transactions.
};
class cEpgHandlers : public cList<cEpgHandler> {
public:
bool IgnoreChannel(const cChannel *Channel);
bool HandleEitEvent(cSchedule *Schedule, const SI::EIT::Event *EitEvent, uchar TableID, uchar Version);
bool HandledExternally(const cChannel *Channel);
bool IsUpdate(tEventID EventID, time_t StartTime, uchar TableID, uchar Version);
void SetEventID(cEvent *Event, tEventID EventID);
void SetTitle(cEvent *Event, const char *Title);
void SetShortText(cEvent *Event, const char *ShortText);
void SetDescription(cEvent *Event, const char *Description);
void SetContents(cEvent *Event, uchar *Contents);
void SetParentalRating(cEvent *Event, int ParentalRating);
void SetStartTime(cEvent *Event, time_t StartTime);
void SetDuration(cEvent *Event, int Duration);
void SetVps(cEvent *Event, time_t Vps);
void SetComponents(cEvent *Event, cComponents *Components);
void FixEpgBugs(cEvent *Event);
void HandleEvent(cEvent *Event);
void SortSchedule(cSchedule *Schedule);
void DropOutdated(cSchedule *Schedule, time_t SegmentStart, time_t SegmentEnd, uchar TableID, uchar Version);
void BeginSegmentTransfer(const cChannel *Channel, bool OnlyRunningStatus);
void EndSegmentTransfer(bool Modified, bool OnlyRunningStatus);
};
extern cEpgHandlers EpgHandlers;
#endif //__EPG_H
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