/*
Copyright (C) 2002, 2003, 2004, 2005, 2006, 2007, 2008, 2009, 2010,
2011, 2012 Her Majesty the Queen in Right of Canada (Communications
Research Center Canada)
Copyright (C) 2014, 2015
Matthias P. Braendli, matthias.braendli@mpb.li
This file defines all data structures used in DabMux to represent
and save ensemble data.
*/
/*
This file is part of ODR-DabMux.
ODR-DabMux is free software: you can redistribute it and/or modify
it under the terms of the GNU General Public License as
published by the Free Software Foundation, either version 3 of the
License, or (at your option) any later version.
ODR-DabMux is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with ODR-DabMux. If not, see .
*/
#ifndef _MUX_ELEMENTS
#define _MUX_ELEMENTS
#include
#include
#include
#include
#include
#include
#include
#include "dabOutput/dabOutput.h"
#include "dabInput.h"
#include "RemoteControl.h"
#include "Eti.h"
class MuxInitException : public std::exception
{
public:
MuxInitException(const std::string m = "ODR-DabMux initialisation error")
throw()
: msg(m) {}
~MuxInitException(void) throw() {}
const char* what() const throw() { return msg.c_str(); }
private:
std::string msg;
};
enum class subchannel_type_t {
Audio = 0,
DataDmb = 1,
Fidc = 2,
Packet = 3
};
/* Announcement switching flags,
* define in ETSI TS 101 756 Table 15 */
const char * const annoucement_flags_names[] = {
"Alarm",
"Traffic",
"Travel",
"Warning",
"News",
"Weather",
"Event",
"Special",
"ProgrammeInfo",
"Sports",
"Finance",
"tba1", "tba2", "tba3", "tba4", "tba5"
};
/* Class representing an announcement cluster for FIG 0/19 */
class AnnouncementCluster : public RemoteControllable {
public:
AnnouncementCluster(std::string name) :
RemoteControllable(name),
m_active(false)
{
RC_ADD_PARAMETER(active, "Signal this announcement");
}
uint8_t cluster_id;
uint16_t flags;
std::string subchanneluid;
std::string tostring(void) const;
bool is_active(void) const { return m_active; };
private:
bool m_active;
/* Remote control */
virtual void set_parameter(const std::string& parameter,
const std::string& value);
/* Getting a parameter always returns a string. */
virtual const std::string get_parameter(const std::string& parameter) const;
};
struct dabOutput {
dabOutput(const char* proto, const char* name) :
outputProto(proto), outputName(name), output(NULL) { }
// outputs are specified with outputProto://outputName
// during config parsing
std::string outputProto;
std::string outputName;
// later, the corresponding output is then created
DabOutput* output;
};
#define DABLABEL_LENGTH 16
class DabLabel
{
public:
/* Set a new label and short label.
* returns: 0 on success
* -1 if the short_label is not a representable
* -2 if the short_label is too long
* -3 if the text is too long
*/
int setLabel(const std::string& label, const std::string& short_label);
/* Same as above, but sets the flag to 0xff00, truncating at 8
* characters.
*
* returns: 0 on success
* -3 if the text is too long
*/
int setLabel(const std::string& label);
/* Write the label to the 16-byte buffer given in buf
* In the DAB standard, the label is 16 bytes long, and is
* padded using spaces.
*/
void writeLabel(uint8_t* buf) const;
uint16_t flag() const { return m_flag; }
const std::string long_label() const { return m_label; }
const std::string short_label() const;
private:
/* The flag field selects which label characters make
* up the short label
*/
uint16_t m_flag;
/* The m_label is not padded in any way */
std::string m_label;
/* Checks and calculates the flag */
int setShortLabel(const std::string& slabel);
};
class DabService;
class DabComponent;
class dabSubchannel;
class dabEnsemble : public RemoteControllable {
public:
dabEnsemble()
: RemoteControllable("ensemble")
{
RC_ADD_PARAMETER(localtimeoffset,
"local time offset, 'auto' or -24 to +24 [half-hours]");
}
/* Remote control */
virtual void set_parameter(const std::string& parameter,
const std::string& value);
/* Getting a parameter always returns a string. */
virtual const std::string get_parameter(const std::string& parameter) const;
/* all fields are public, since this was a struct before */
uint16_t id;
uint8_t ecc;
DabLabel label;
uint8_t mode;
/* Use the local time to calculate the lto */
bool lto_auto;
int lto; // local time offset in half-hours
// range: -24 to +24
int international_table;
std::vector > services;
std::vector components;
std::vector subchannels;
std::vector > clusters;
};
struct dabProtectionUEP {
unsigned char tableIndex;
};
enum dab_protection_eep_profile {
EEP_A,
EEP_B
};
struct dabProtectionEEP {
dab_protection_eep_profile profile;
// option is a 3-bit field where 000 and 001 are used to
// select EEP profile A and B.
// Other values are for future use, see
// EN 300 401 Clause 6.2.1 "Basic sub-channel organisation"
uint8_t GetOption(void) const {
return (this->profile == EEP_A) ? 0 : 1;
}
};
enum dab_protection_form_t {
UEP, // implies FIG0/1 Short form
EEP // Long form
};
struct dabProtection {
unsigned char level;
dab_protection_form_t form;
union {
dabProtectionUEP uep;
dabProtectionEEP eep;
};
};
class dabSubchannel
{
public:
dabSubchannel(std::string& uid) :
uid(uid),
input(),
id(0),
type(subchannel_type_t::Audio),
startAddress(0),
bitrate(0),
protection()
{
}
// Calculate subchannel size in number of CU
unsigned short getSizeCu(void) const;
// Calculate subchannel size in number of bytes
unsigned short getSizeByte(void) const;
// Calculate subchannel size in number of uint32_t
unsigned short getSizeWord(void) const;
// Calculate subchannel size in number of uint64_t
unsigned short getSizeDWord(void) const;
std::string uid;
std::string inputUri;
DabInputBase* input;
unsigned char id;
subchannel_type_t type;
uint16_t startAddress;
uint16_t bitrate;
dabProtection protection;
};
class SubchannelId : public std::binary_function {
public:
bool operator()(const dabSubchannel* subchannel, const int id) const {
return subchannel->id == id;
}
};
struct dabAudioComponent {
dabAudioComponent() :
uaType(0xFFFF) {}
uint16_t uaType; // User Application Type
};
struct dabDataComponent {
};
struct dabFidcComponent {
};
struct dabPacketComponent {
dabPacketComponent() :
id(0),
address(0),
appType(0xFFFF),
datagroup(false) { }
uint16_t id;
uint16_t address;
uint16_t appType;
bool datagroup;
};
class DabComponent : public RemoteControllable
{
public:
DabComponent(std::string& uid) :
RemoteControllable(uid),
uid(uid)
{
RC_ADD_PARAMETER(label, "Label and shortlabel [label,short]");
}
std::string uid;
DabLabel label;
uint32_t serviceId;
uint8_t subchId;
uint8_t type;
uint8_t SCIdS;
dabAudioComponent audio;
dabDataComponent data;
dabFidcComponent fidc;
dabPacketComponent packet;
bool isPacketComponent(std::vector& subchannels) const;
/* Remote control */
virtual void set_parameter(const std::string& parameter,
const std::string& value);
/* Getting a parameter always returns a string. */
virtual const std::string get_parameter(const std::string& parameter) const;
virtual ~DabComponent() {}
private:
const DabComponent& operator=(const DabComponent& other);
DabComponent(const DabComponent& other);
};
class DabService : public RemoteControllable
{
public:
DabService(std::string& uid) :
RemoteControllable(uid),
uid(uid)
{
RC_ADD_PARAMETER(label, "Label and shortlabel [label,short]");
RC_ADD_PARAMETER(pty, "Programme Type");
}
std::string uid;
uint32_t id;
unsigned char pty;
unsigned char language;
/* ASu (Announcement support) flags: this 16-bit flag field shall
* specify the type(s) of announcements by which it is possible to
* interrupt the reception of the service. The interpretation of this
* field shall be as defined in TS 101 756, table 14.
*/
uint16_t ASu;
std::vector clusters;
subchannel_type_t getType(std::shared_ptr ensemble) const;
bool isProgramme(std::shared_ptr ensemble) const;
unsigned char nbComponent(std::vector& components) const;
DabLabel label;
/* Remote control */
virtual void set_parameter(const std::string& parameter,
const std::string& value);
/* Getting a parameter always returns a string. */
virtual const std::string get_parameter(const std::string& parameter) const;
virtual ~DabService() {}
private:
const DabService& operator=(const DabService& other);
DabService(const DabService& other);
};
std::vector::iterator getSubchannel(
std::vector& subchannels, int id);
std::vector::iterator getComponent(
std::vector& components,
uint32_t serviceId,
std::vector::iterator current);
std::vector::iterator getComponent(
std::vector& components,
uint32_t serviceId);
std::vector >::iterator getService(
DabComponent* component,
std::vector >& services);
#endif