mirror of
https://github.com/vdr-projects/vdr.git
synced 2025-03-01 10:50:46 +00:00
af483c11ae
- Fixed checking for the presence of NPTL (thanks to Jouni Karvo). - Making sure section filters are only set if the device actually has a lock (thanks to Andreas Share for pointing this out). - Fixed a possible NULL pointer assignment in cMenuText::SetText() (thanks to Marco Schlüssler). - Fixed a crash in case the last line in channels.conf is a group separator and that group is selected in the channel display (thanks to Dick Streefland). - Added cRingBufferLinear::Read() to read directly from a file handle into the ring buffer. - Using timeouts in ring buffers to avoid 'usleep()'. - Clearing the 'Transfer Mode' ring buffer after clearing the device to avoid an "almost full" ring buffer. - Removed locking from cRingBufferLinear for better performance under high load. - Using a cRingBufferLinear in cRemux to avoid unnecessary copying of data. - Using a cRingBufferLinear in cTSBuffer and filling it in a separate thread to avoid buffer overflows. Plugins using cTSBuffer will need to remove the call to the now obsolete Read() function (see cDvbDevice::GetTSPacket() for the new usage of cTSBuffer). - cRemux::Process() has been split into Put(), Get() and Del() to allow for a better decoupling of the remuxing and disk writing process. Plugins using cRemux will need to be modified accordingly. - The actual disk writing in recordings is now done in a separate thread to improve the overall throughput. - Changed cRemux so that it returns the maximum available amount of data with each call, not just 2048 byte. - Added a visual display of all cRingBufferLinear buffers for debugging. To activate it, define DEBUGRINGBUFFERS in ringbuffer.h. - Instead of cCondVar now using the new cCondWait (which also avoids a possible "near miss" condition; thanks to Sascha Volkenandt for pointing out this one). cCondVar is still present for plugins that use it (and VDR itself also still uses it in cRemote). - The cRingBuffer now does EnableGet()/EnablePut() only if the buffer is more than one third full or empty, respectively. This dramatically improves recording performance and reduces system load (thanks to Marco Schlüßler for doing some testing regarding buffer performance and giving me some hints that finally led to finding out that this was the basic problem causing buffer overflows). - Improved Transfer Mode (thanks to Marco Schlüßler for suggestions and testing). - Fixed a possible crash with inconsistent SI data (thanks to Marcel Wiesweg). - Fixed showing the replay mode if the OSD is currently in use (thanks to Kimmo Tykkala for pointing out this problem). - cOsdProvider::NewOsd() now always returns a valid pointer, even if the OSD is currently in use (it will then return a dummy cOsd object and write a message to the log file). - Added Estonian language texts (thanks to Arthur Konovalov). - Fixed 'newplugin' and libsi/Makefile to use the compiler defined in $(CXX) for generating file dependencies (thanks to Andreas Brachold). - Moved the initialization of aPid1 and aPid2 to the beginning of cDvbDevice::cDvbDevice() to have them set in case a patch references them (thanks to Wayne Keer for pointing this out). - Completed the Russian OSD texts (thanks to Vyacheslav Dikonov). - Avoiding unnecessary section filter start/stops (thanks to Marco Schlüßler). - Made the "Channel not available!" message and mtInfo instead of mtError (suggested by Wayne Keer). - Made volume control more linear (thanks to Emil Naepflein and Udo Richter). - Now skipping code table info in SI data (suggested by Milos Kapoun). - Added missing Czech characters to fontosd-iso8859-2.c (thanks to Milos Kapoun). - Fixed a crash in the time search mechanism (reported by Reinhard Nissl). - If one PID can't be added, the whole cDevice::AttachReceiver() will now fail and all PIDs added so far will be deleted (thanks to Marco Schlüßler for pointing out this one). - Now only saving channels.conf after a modification made by the user (avoids lots of disk access due to automatic channel updates). Automatic channel modifications will be saved every 10 minutes if no recording is currently active. - Removed the 'Log' parameter from the cChannel::Set... functions. Instead checking if the channel has a non-zero number. - Updated 'channels.conf.terr' for Hannover (thanks to Sven Kreiensen).
463 lines
18 KiB
C++
463 lines
18 KiB
C++
/***************************************************************************
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* Copyright (c) 2003 by Marcel Wiesweg *
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* *
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* This program is free software; you can redistribute it and/or modify *
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* it under the terms of the GNU General Public License as published by *
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* the Free Software Foundation; either version 2 of the License, or *
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* (at your option) any later version. *
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* *
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* $Id: si.h 1.11 2004/10/16 09:58:10 kls Exp $
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* *
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***************************************************************************/
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#ifndef LIBSI_SI_H
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#define LIBSI_SI_H
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#include <stdint.h>
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#include "util.h"
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#include "headers.h"
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namespace SI {
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enum TableId { TableIdPAT = 0x00, //program association section
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TableIdCAT = 0x01, //conditional access section
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TableIdPMT = 0x02, //program map section
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TableIdTSDT = 0x03,//transport stream description section
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TableIdNIT = 0x40, //network information, actual network section
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TableIdNIT_other = 0x41, //network information section, other network
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TableIdSDT = 0x42, //service description section
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TableIdSDT_other = 0x46,
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TableIdBAT = 0x46, //bouquet association section
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TableIdEIT_presentFollowing = 0x4E, //event information section
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TableIdEIT_presentFollowing_other = 0x4F,
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//range from 0x50 to 0x5F
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TableIdEIT_schedule_first = 0x50,
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TableIdEIT_schedule_last = 0x5F,
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//range from 0x60 to 0x6F
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TableIdEIT_schedule_Other_first = 0x60,
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TableIdEIT_schedule_Other_last = 0x6F,
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TableIdTDT = 0x70, //time date section
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TableIdRST = 0x71, //running status section
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TableIdST = 0x72, //stuffing section
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TableIdTOT = 0x73, //time offset section
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TableIdDIT = 0x7E, //discontinuity information section
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TableIdSIT = 0x7F, //service information section
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TableIdAIT = 0x74 //application information section
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};
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enum DescriptorTag {
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// defined by ISO/IEC 13818-1
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VideoStreamDescriptorTag = 0x02,
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AudioStreamDescriptorTag = 0x03,
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HierarchyDescriptorTag = 0x04,
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RegistrationDescriptorTag = 0x05,
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DataStreamAlignmentDescriptorTag = 0x06,
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TargetBackgroundGridDescriptorTag = 0x07,
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VideoWindowDescriptorTag = 0x08,
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CaDescriptorTag = 0x09,
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ISO639LanguageDescriptorTag = 0x0A,
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SystemClockDescriptorTag = 0x0B,
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MultiplexBufferUtilizationDescriptorTag = 0x0C,
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CopyrightDescriptorTag = 0x0D,
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MaximumBitrateDescriptorTag = 0x0E,
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PrivateDataIndicatorDescriptorTag = 0x0F,
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SmoothingBufferDescriptorTag = 0x10,
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STDDescriptorTag = 0x11,
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IBPDescriptorTag = 0x12,
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// defined by ISO-13818-6 (DSM-CC)
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CarouselIdentifierDescriptorTag = 0x13,
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// 0x14 - 0x3F Reserved
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// defined by ETSI (EN 300 468)
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NetworkNameDescriptorTag = 0x40,
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ServiceListDescriptorTag = 0x41,
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StuffingDescriptorTag = 0x42,
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SatelliteDeliverySystemDescriptorTag = 0x43,
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CableDeliverySystemDescriptorTag = 0x44,
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VBIDataDescriptorTag = 0x45,
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VBITeletextDescriptorTag = 0x46,
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BouquetNameDescriptorTag = 0x47,
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ServiceDescriptorTag = 0x48,
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CountryAvailabilityDescriptorTag = 0x49,
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LinkageDescriptorTag = 0x4A,
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NVODReferenceDescriptorTag = 0x4B,
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TimeShiftedServiceDescriptorTag = 0x4C,
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ShortEventDescriptorTag = 0x4D,
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ExtendedEventDescriptorTag = 0x4E,
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TimeShiftedEventDescriptorTag = 0x4F,
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ComponentDescriptorTag = 0x50,
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MocaicDescriptorTag = 0x51,
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StreamIdentifierDescriptorTag = 0x52,
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CaIdentifierDescriptorTag = 0x53,
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ContentDescriptorTag = 0x54,
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ParentalRatingDescriptorTag = 0x55,
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TeletextDescriptorTag = 0x56,
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TelephoneDescriptorTag = 0x57,
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LocalTimeOffsetDescriptorTag = 0x58,
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SubtitlingDescriptorTag = 0x59,
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TerrestrialDeliverySystemDescriptorTag = 0x5A,
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MultilingualNetworkNameDescriptorTag = 0x5B,
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MultilingualBouquetNameDescriptorTag = 0x5C,
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MultilingualServiceNameDescriptorTag = 0x5D,
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MultilingualComponentDescriptorTag = 0x5E,
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PrivateDataSpecifierDescriptorTag = 0x5F,
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ServiceMoveDescriptorTag = 0x60,
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ShortSmoothingBufferDescriptorTag = 0x61,
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FrequencyListDescriptorTag = 0x62,
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PartialTransportStreamDescriptorTag = 0x63,
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DataBroadcastDescriptorTag = 0x64,
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CaSystemDescriptorTag = 0x65,
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DataBroadcastIdDescriptorTag = 0x66,
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TransportStreamDescriptorTag = 0x67,
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DSNGDescriptorTag = 0x68,
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PDCDescriptorTag = 0x69,
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AC3DescriptorTag = 0x6A,
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AncillaryDataDescriptorTag = 0x6B,
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CellListDescriptorTag = 0x6C,
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CellFrequencyLinkDescriptorTag = 0x6D,
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AnnouncementSupportDescriptorTag = 0x6E,
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ApplicationSignallingDescriptorTag = 0x6F,
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AdaptationFieldDataDescriptorTag = 0x70,
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ServiceIdentifierDescriptorTag = 0x71,
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ServiceAvailabilityDescriptorTag = 0x72,
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// Defined by ETSI TS 102 812 (MHP)
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// They once again start with 0x00 (see page 234, MHP specification)
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MHP_ApplicationDescriptorTag = 0x00,
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MHP_ApplicationNameDescriptorTag = 0x01,
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MHP_TransportProtocolDescriptorTag = 0x02,
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MHP_DVBJApplicationDescriptorTag = 0x03,
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MHP_DVBJApplicationLocationDescriptorTag = 0x04,
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// 0x05 - 0x0A is unimplemented this library
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MHP_ExternalApplicationAuthorisationDescriptorTag = 0x05,
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MHP_IPv4RoutingDescriptorTag = 0x06,
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MHP_IPv6RoutingDescriptorTag = 0x07,
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MHP_DVBHTMLApplicationDescriptorTag = 0x08,
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MHP_DVBHTMLApplicationLocationDescriptorTag = 0x09,
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MHP_DVBHTMLApplicationBoundaryDescriptorTag = 0x0A,
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MHP_ApplicationIconsDescriptorTag = 0x0B,
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MHP_PrefetchDescriptorTag = 0x0C,
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MHP_DelegatedApplicationDescriptorTag = 0x0E,
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MHP_ApplicationStorageDescriptorTag = 0x10,
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//a descriptor currently unimplemented in this library
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//the actual value 0xFF is "forbidden" according to the spec.
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UnimplementedDescriptorTag = 0xFF
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};
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enum DescriptorTagDomain { SI, MHP };
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enum RunningStatus { RunningStatusUndefined = 0,
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RunningStatusNotRunning = 1,
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RunningStatusStartsInAFewSeconds = 2,
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RunningStatusPausing = 3,
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RunningStatusRunning = 4
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};
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enum LinkageType { LinkageTypeInformationService = 0x01,
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LinkageTypeEPGService = 0x02,
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LinkageTypeCaReplacementService = 0x03,
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LinkageTypeTSContainingCompleteNetworkBouquetSi = 0x04,
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LinkageTypeServiceReplacementService = 0x05,
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LinkageTypeDataBroadcastService = 0x06,
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LinkageTypeRCSMap = 0x07,
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LinkageTypeMobileHandover = 0x08,
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LinkageTypeSystemSoftwareUpdateService = 0x09,
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LinkageTypeTSContainingSsuBatOrNit = 0x0A
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};
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/* Some principles:
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- Objects that return references to other objects contained in their data must make sure
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that the returned objects have been parsed.
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(the Loop subclasses take care of that.)
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Note that this does not apply to Loops and Strings (their are never returned by reference, BTW).
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*/
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class Object : public Parsable {
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public:
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Object();
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Object(CharArray &d);
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//can only be called once since data is immutable
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void setData(const unsigned char*data, unsigned int size, bool doCopy=true);
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CharArray getData() { return data; }
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//returns the valid flag which indicates if data is all right or errors have been encountered
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bool isValid() { return data.isValid(); }
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virtual int getLength() = 0;
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protected:
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CharArray data;
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//is protected - not used for sections
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template <class T> friend class StructureLoop;
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void setData(CharArray &d);
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//returns whether the given offset fits within the limits of the actual data
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//The valid flag will be set accordingly
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bool checkSize(unsigned int offset);
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};
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class Section : public Object {
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public:
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//convenience: sets data and parses if doParse
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Section(const unsigned char *data, bool doCopy=true);
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Section() {}
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TableId getTableId() const;
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virtual int getLength();
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static int getLength(const unsigned char *d);
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static TableId getTableId(const unsigned char *d);
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};
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class CRCSection : public Section {
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public:
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//convenience: sets data and parses if doParse
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CRCSection(const unsigned char *data, bool doCopy=true) : Section(data, doCopy) {}
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CRCSection() {}
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bool isCRCValid();
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//convenience: isValid+CheckParse
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bool CheckCRCAndParse();
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};
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/* A section which has the ExtendedSectionHeader
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(section_syntax_indicator==1) */
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class NumberedSection : public CRCSection {
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public:
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NumberedSection(const unsigned char *data, bool doCopy=true) : CRCSection(data, doCopy) {}
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NumberedSection() {}
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int getTableIdExtension() const;
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bool getCurrentNextIndicator() const;
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int getVersionNumber() const;
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int getSectionNumber() const;
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int getLastSectionNumber() const;
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bool moreThanOneSection() const { return getLastSectionNumber()>0; }
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static int getTableIdExtension(const unsigned char *d);
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};
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class VariableLengthPart : public Object {
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public:
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//never forget to call this
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void setData(CharArray d, int l) { Object::setData(d); checkSize(l); length=l; }
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//convenience method
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void setDataAndOffset(CharArray d, int l, unsigned int &offset) { Object::setData(d); checkSize(l); length=l; offset+=l; }
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virtual int getLength() { return length; }
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private:
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int length;
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};
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class LoopElement : public Object {
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};
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class Descriptor : public LoopElement {
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public:
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virtual int getLength();
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DescriptorTag getDescriptorTag() const;
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static int getLength(const unsigned char *d);
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static DescriptorTag getDescriptorTag(const unsigned char *d);
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protected:
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friend class DescriptorLoop;
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//returns a subclass of descriptor according to the data given.
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//The object is allocated with new and must be delete'd.
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//setData() will have been called, CheckParse() not.
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//if returnUnimplemetedDescriptor==true:
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// Never returns null - maybe the UnimplementedDescriptor.
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//if returnUnimplemetedDescriptor==false:
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// Never returns the UnimplementedDescriptor - maybe null
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static Descriptor *getDescriptor(CharArray d, DescriptorTagDomain domain, bool returnUnimplemetedDescriptor);
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};
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class Loop : public VariableLengthPart {
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public:
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class Iterator {
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public:
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Iterator() { i=0; }
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void reset() { i=0; }
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private:
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template <class T> friend class StructureLoop;
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friend class DescriptorLoop;
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template <class T> friend class TypeLoop;
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friend class ExtendedEventDescriptors;
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int i;
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};
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protected:
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virtual void Parse() {}
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};
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//contains LoopElements of one type only
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template <class T> class StructureLoop : public Loop {
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public:
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//currently you must use a while-loop testing for hasNext()
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//i must be 0 to get the first descriptor (with the first call)
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bool getNext(T &obj, Iterator &it)
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{
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if (!isValid() || it.i >= getLength())
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return false;
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CharArray d=data;
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d.addOffset(it.i);
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T ret;
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ret.setData(d);
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ret.CheckParse();
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if (!checkSize(ret.getLength()))
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return false;
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it.i+=ret.getLength();
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obj=ret;
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return true;
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}
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T* getNextAsPointer(Iterator &it)
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{
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if (!isValid() || it.i >= getLength())
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return 0;
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CharArray d=data;
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d.addOffset(it.i);
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T *ret=new T();
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ret->setData(d);
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ret->CheckParse();
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if (!checkSize(ret->getLength()))
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return 0;
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it.i+=ret->getLength();
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return ret;
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}
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//bool hasNext(Iterator &it) { return getLength() > it.i; }
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};
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//contains descriptors of different types
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class DescriptorLoop : public Loop {
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public:
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DescriptorLoop() { domain=SI; }
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//i must be 0 to get the first descriptor (with the first call)
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//All returned descriptors must be delete'd.
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//returns null if no more descriptors available
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Descriptor *getNext(Iterator &it);
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//return the next descriptor with given tag, or 0 if not available.
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//if returnUnimplemetedDescriptor==true:
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// an UnimplementedDescriptor may be returned if the next matching descriptor is unimplemented,
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// 0 will be returned if and only if no matching descriptor is found.
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//if returnUnimplemetedDescriptor==false:
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// if 0 is returned, either no descriptor with the given tag was found,
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// or descriptors were found, but the descriptor type is not implemented
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//In either case, a return value of 0 indicates that no further calls to this method
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//with the iterator shall be made.
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Descriptor *getNext(Iterator &it, DescriptorTag tag, bool returnUnimplemetedDescriptor=false);
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//return the next descriptor with one of the given tags, or 0 if not available.
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//if returnUnimplemetedDescriptor==true:
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// returns 0 if and only if no descriptor with one of the given tags was found.
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// The UnimplementedDescriptor may be returned.
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//if returnUnimplemetedDescriptor==false:
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// if 0 is returned, either no descriptor with one of the given tags was found,
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// or descriptors were found, but none of them are implemented.
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// The UnimplementedDescriptor will never be returned.
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//In either case, a return value of 0 indicates that no further calls to this method
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//with the iterator shall be made.
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Descriptor *getNext(Iterator &it, DescriptorTag *tags, int arrayLength, bool returnUnimplemetedDescriptor=false);
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//returns the number of descriptors in this loop
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int getNumberOfDescriptors();
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//writes the tags of the descriptors in this loop in the array,
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// which must at least have the size getNumberOfDescriptors().
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//The number of descriptors, i.e. getNumberOfDescriptors(), is returned.
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// You can specify the array type (Descriptor tags are 8 Bit,
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// you might e.g. choose a char, short, int or DescriptorTag array)
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template <typename T> int getDescriptorTags(T *tags)
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{
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const unsigned char *p=data.getData();
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const unsigned char *end=p+getLength();
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int count=0;
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while (p < end) {
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tags[count++]=(T)Descriptor::getDescriptorTag(p);
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p+=Descriptor::getLength(p);
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}
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return count;
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}
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protected:
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Descriptor *createDescriptor(int &i, bool returnUnimplemetedDescriptor);
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DescriptorTagDomain domain;
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};
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typedef uint8_t EightBit;
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typedef uint16_t SixteenBit;
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typedef uint32_t ThirtyTwoBit;
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typedef uint64_t SixtyFourBit;
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template <typename T> class TypeLoop : public Loop {
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public:
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int getCount() { return getLength()/sizeof(T); }
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T operator[](const unsigned int index) const
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{
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switch (sizeof(T)) {
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case 1:
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return data[index];
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case 2:
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return data.TwoBytes(index);
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case 4:
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return data.FourBytes(index);
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case 8:
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return (SixtyFourBit(data.FourBytes(index)) << 32) | data.FourBytes(index+4);
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}
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}
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T getNext(Iterator &it) const
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{
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T ret=operator[](it.i);
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it.i+=sizeof(T);
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return ret;
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}
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bool hasNext(Iterator &it) { return isValid() && (getLength() > it.i); }
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};
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class MHP_DescriptorLoop : public DescriptorLoop {
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public:
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MHP_DescriptorLoop() { domain=MHP; }
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};
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//The content of the ExtendedEventDescriptor may be split over several
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//descriptors if the text is longer than 256 bytes.
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//The following classes provide base functionality to handle this case.
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class GroupDescriptor : public Descriptor {
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public:
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virtual int getDescriptorNumber() = 0;
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virtual int getLastDescriptorNumber() = 0;
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};
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class DescriptorGroup {
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public:
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DescriptorGroup(bool deleteOnDesctruction=true);
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~DescriptorGroup();
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void Add(GroupDescriptor *d);
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void Delete();
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int getLength() { return length; }
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GroupDescriptor **getDescriptors() { return array; }
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bool isComplete(); //if all descriptors have been added
|
|
protected:
|
|
int length;
|
|
GroupDescriptor **array;
|
|
bool deleteOnDesctruction;
|
|
};
|
|
|
|
class String : public VariableLengthPart {
|
|
public:
|
|
//A note to the length: getLength() returns the length of the raw data.
|
|
//The text may be shorter. Its length can be obtained with one of the
|
|
//getText functions and strlen.
|
|
|
|
//returns text. Data is allocated with new and must be delete'd by the user.
|
|
char *getText();
|
|
//copies text into given buffer.
|
|
//a buffer of size getLength()+1 is guaranteed to be sufficiently large.
|
|
//In most descriptors the string length is an 8-bit field,
|
|
//so the maximum there is 256.
|
|
//returns the given buffer for convenience.
|
|
//The emphasis marks 0x86 and 0x87 are still available.
|
|
char *getText(char *buffer, int size);
|
|
//The same semantics as for getText(char*) apply.
|
|
//The short version of the text according to ETSI TR 101 211 (chapter 4.6)
|
|
//will be written into the shortVersion buffer (which should, therefore, have the same
|
|
//length as buffer). If no shortVersion is available, shortVersion will contain
|
|
//an empty string.
|
|
//The emphasis marks 0x86 and 0x87 are still available in buffer, but not in shortVersion.
|
|
char *getText(char *buffer, char *shortVersion, int sizeBuffer, int sizeShortVersion);
|
|
protected:
|
|
virtual void Parse() {}
|
|
void decodeText(char *buffer, int size);
|
|
void decodeText(char *buffer, char *shortVersion, int sizeBuffer, int sizeShortVersion);
|
|
};
|
|
|
|
} //end of namespace
|
|
|
|
#endif //LIBSI_SI_H
|