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eitd: cleanup commented code

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[CST] Focus
2012-02-03 12:26:20 +04:00
parent 699c36ed9f
commit 4ab1f083cf
1 changed files with 3 additions and 237 deletions
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240
src/eitd/sectionsd.cpp
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@@ -234,14 +234,10 @@ bool bTimeCorrect = false;
pthread_cond_t timeIsSetCond = PTHREAD_COND_INITIALIZER;
pthread_mutex_t timeIsSetMutex = PTHREAD_MUTEX_INITIALIZER;
//static bool messaging_wants_current_next_Event = false;
//static bool messaging_got_current = false;
//static bool messaging_got_next = false;
static int messaging_have_CN = 0x00; // 0x01 = CURRENT, 0x02 = NEXT
static int messaging_got_CN = 0x00; // 0x01 = CURRENT, 0x02 = NEXT
static time_t messaging_last_requested = time_monotonic();
static bool messaging_neutrino_sets_time = false;
//static bool messaging_WaitForServiceDesc = false;
inline bool waitForTimeset(void)
{
@@ -284,8 +280,7 @@ static const SIevent nullEvt; // Null-Event
// SmartPointer auf SIevent
//typedef Loki::SmartPtr<class SIevent, Loki::RefCounted, Loki::DisallowConversion, Loki::NoCheck>
// SIeventPtr;
typedef boost::shared_ptr<class SIevent>
SIeventPtr;
typedef boost::shared_ptr<class SIevent> SIeventPtr;
typedef std::map<event_id_t, SIeventPtr, std::less<event_id_t> > MySIeventsOrderUniqueKey;
static MySIeventsOrderUniqueKey mySIeventsOrderUniqueKey;
@@ -331,26 +326,6 @@ static MySIeventsOrderFirstEndTimeServiceIDEventUniqueKey mySIeventsOrderFirstEn
typedef std::map<t_channel_id, event_id_t, std::less<t_channel_id> > MySIeventUniqueKeysMetaOrderServiceUniqueKey;
static MySIeventUniqueKeysMetaOrderServiceUniqueKey mySIeventUniqueKeysMetaOrderServiceUniqueKey;
/*
class NvodSubEvent {
public:
NvodSubEvent() {
uniqueServiceID=0;
uniqueEventID=0;
}
NvodSubEvent(const NvodSubEvent &n) {
uniqueServiceID=n.uniqueServiceID;
uniqueEventID=n.uniqueEventID;
}
t_channel_id uniqueServiceID;
event_id_t uniqueMetaEventID; // ID des Meta-Events
event_id_t uniqueMetaEventID; // ID des eigentlichen Events
};
// Menge sortiert nach Meta-ServiceIDs (NVODs)
typedef std::multimap<t_channel_id, class NvodSubEvent *, std::less<t_channel_id> > nvodSubEvents;
*/
struct EPGFilter
{
t_original_network_id onid;
@@ -493,12 +468,6 @@ static bool deleteEvent(const event_id_t uniqueKey)
unlockEvents();
return false;
}
/*
for(MySIeventIDsMetaOrderServiceID::iterator i=mySIeventIDsMetaOrderServiceID.begin(); i!=mySIeventIDsMetaOrderServiceID.end(); i++)
if(i->second==eventID)
mySIeventIDsMetaOrderServiceID.erase(i);
*/
}
// Fuegt ein Event in alle Mengen ein
@@ -869,7 +838,7 @@ static void addEvent(const SIevent &evt, const time_t zeit, bool cn = false)
}
unlockEvents();
}
#if 0
#if 0 // FIXME used for PPT
// Fuegt zusaetzliche Zeiten in ein Event ein
static void addEventTimes(const SIevent &evt)
{
@@ -1249,90 +1218,6 @@ static const SIevent &findNextSIevent(const event_id_t uniqueKey, SItime &zeit)
return nullEvt;
}
/*
// Sucht das naechste Event anhand unique key und Startzeit
static const SIevent &findNextSIevent(const event_id_t uniqueKey, SItime &zeit)
{
MySIeventsOrderUniqueKey::iterator eFirst = mySIeventsOrderUniqueKey.find(uniqueKey);
if (eFirst != mySIeventsOrderUniqueKey.end())
{
SItimes::iterator t = eFirst->second->times.end();
if (eFirst->second->times.size() > 1)
{
// Wir haben ein NVOD-Event
// d.h. wir suchen die aktuelle Zeit und nehmen die naechste davon, falls existent
for ( t = eFirst->second->times.begin(); t != eFirst->second->times.end(); t++)
if (t->startzeit == zeit.startzeit)
{
t++;
if (t != eFirst->second->times.end())
{
// zeit = *t;
// return *(eFirst->second);
break;
}
t = eFirst->second->times.end();
break; // ganz normal naechstes Event suchen
}
}
MySIeventsOrderServiceUniqueKeyFirstStartTimeEventUniqueKey::iterator eNext = mySIeventsOrderServiceUniqueKeyFirstStartTimeEventUniqueKey.find(eFirst->second);
eNext++;
if (eNext != mySIeventsOrderServiceUniqueKeyFirstStartTimeEventUniqueKey.end())
{
if ((*eNext)->get_channel_id() == eFirst->second->get_channel_id())
{
if (t != eFirst->second->times.end()) {
if (t->startzeit < (*eNext)->times.begin()->startzeit) {
zeit = *t;
return *(eFirst->second);
}
}
MySIeventsOrderServiceUniqueKeyFirstStartTimeEventUniqueKey::iterator ePrev =
mySIeventsOrderServiceUniqueKeyFirstStartTimeEventUniqueKey.begin();
while ( ((*ePrev)->times.begin()->startzeit < zeit.startzeit) &&
(ePrev != mySIeventsOrderServiceUniqueKeyFirstStartTimeEventUniqueKey.end()) ) {
if ((*ePrev)->times.size() > 1) {
t = (*ePrev)->times.begin();
while ( (t != (*ePrev)->times.end()) && (t->startzeit <
(*eNext)->times.begin()->startzeit) ) {
if (t->startzeit > zeit.startzeit) {
zeit = *t;
return *(*ePrev);
}
t++;
}
}
ePrev++;
}
zeit = *((*eNext)->times.begin());
return *(*eNext);
}
else if (t != eFirst->second->times.end()) {
zeit = *t;
return *(eFirst->second);
}
else
return nullEvt;
}
else if (t != eFirst->second->times.end()) {
zeit = *t;
return *(eFirst->second);
}
}
return nullEvt;
}
*/
// Sucht das naechste UND vorhergehende Event anhand unique key und Startzeit
static void findPrevNextSIevent(const event_id_t uniqueKey, SItime &zeit, SIevent &prev, SItime &prev_zeit, SIevent &next, SItime &next_zeit)
{
@@ -1737,18 +1622,7 @@ out:
return ;
}
/*
static void commandAllEventsChannelName(int connfd, char *data, const unsigned dataLength)
{
data[dataLength - 1] = 0; // to be sure it has an trailing 0
dprintf("Request of all events for '%s'\n", data);
lockServices();
t_channel_id uniqueServiceKey = findServiceUniqueKeyforServiceName(data);
unlockServices();
sendAllEvents(connfd, uniqueServiceKey);
return ;
}
*/
static void commandAllEventsChannelID(int connfd, char *data, const unsigned dataLength)
{
if (dataLength != sizeof(t_channel_id))
@@ -2014,27 +1888,10 @@ out:
return ;
}
/*
std::vector<int64_t> messaging_skipped_sections_ID [0x22]; // 0x4e .. 0x6f
static int64_t messaging_sections_max_ID [0x22]; // 0x4e .. 0x6f
static int messaging_sections_got_all [0x22]; // 0x4e .. 0x6f
*/
//static unsigned char messaging_current_version_number = 0xff;
//static unsigned char messaging_current_section_number = 0;
/* messaging_eit_is_busy does not need locking, it is only written to from CN-Thread */
static bool messaging_eit_is_busy = false;
static bool messaging_need_eit_version = false;
//std::vector<int64_t> messaging_sdt_skipped_sections_ID [2]; // 0x42, 0x46
//static int64_t messaging_sdt_sections_max_ID [2]; // 0x42, 0x46
//static int messaging_sdt_sections_got_all [2]; // 0x42, 0x46
/*
static bool messaging_sdt_actual_sections_got_all; // 0x42
static bool messaging_sdt_actual_sections_so_far [MAX_SECTIONS]; // 0x42
static t_transponder_id messaging_sdt_other_sections_got_all [MAX_OTHER_SDT]; // 0x46
static bool messaging_sdt_other_sections_so_far [MAX_CONCURRENT_OTHER_SDT] [MAX_SECTIONS]; // 0x46
static t_transponder_id messaging_sdt_other_tid [MAX_CONCURRENT_OTHER_SDT]; // 0x46
*/
std::string epg_dir("");
static void commandserviceChanged(int connfd, char *data, const unsigned dataLength)
@@ -2640,97 +2497,6 @@ out:
return ;
}
// Mostly copied from epgd (something bugfixed ;) )
/*
static void commandActualEPGchannelName(int connfd, char *data, const unsigned dataLength)
{
int nResultDataSize = 0;
char* pResultData = 0;
data[dataLength - 1] = 0; // to be sure it has an trailing 0
dprintf("Request of actual EPG for '%s'\n", data);
if (EITThreadsPause()) // -> lock
return ;
lockServices();
lockEvents();
SItime zeitEvt(0, 0);
const SIevent &evt = findActualSIeventForServiceName(data, zeitEvt);
unlockServices();
if (evt.service_id != 0)
{ //Found
dprintf("EPG found.\n");
nResultDataSize =
12 + 1 + // Unique-Key + del
strlen(evt.getName().c_str()) + 1 + //Name + del
strlen(evt.getText().c_str()) + 1 + //Text + del
strlen(evt.getExtendedText().c_str()) + 1 + //ext + del
3 + 3 + 4 + 1 + //dd.mm.yyyy + del
3 + 2 + 1 + //std:min + del
3 + 2 + 1 + //std:min+ del
3 + 1 + 1; //100 + del + 0
pResultData = new char[nResultDataSize];
if (!pResultData)
{
fprintf(stderr, "low on memory!\n");
unlockEvents();
EITThreadsUnPause();
return ;
}
struct tm *pStartZeit = localtime(&zeitEvt.startzeit);
int nSDay(pStartZeit->tm_mday), nSMon(pStartZeit->tm_mon + 1), nSYear(pStartZeit->tm_year + 1900),
nSH(pStartZeit->tm_hour), nSM(pStartZeit->tm_min);
long int uiEndTime(zeitEvt.startzeit + zeitEvt.dauer);
struct tm *pEndeZeit = localtime((time_t*) & uiEndTime);
int nFH(pEndeZeit->tm_hour), nFM(pEndeZeit->tm_min);
unsigned nProcentagePassed = (unsigned)((float)(time(NULL) - zeitEvt.startzeit) / (float)zeitEvt.dauer * 100.);
sprintf(pResultData, "%012llx\xFF%s\xFF%s\xFF%s\xFF%02d.%02d.%04d\xFF%02d:%02d\xFF%02d:%02d\xFF%03u\xFF",
evt.uniqueKey(),
evt.getName().c_str(),
evt.getText().c_str(),
evt.getExtendedText().c_str(), nSDay, nSMon, nSYear, nSH, nSM, nFH, nFM, nProcentagePassed );
}
else
dprintf("actual EPG not found!\n");
unlockEvents();
EITThreadsUnPause(); // -> unlock
// response
struct sectionsd::msgResponseHeader pmResponse;
pmResponse.dataLength = nResultDataSize;
bool rc = writeNbytes(connfd, (const char *)&pmResponse, sizeof(pmResponse), WRITE_TIMEOUT_IN_SECONDS);
if ( nResultDataSize > 0 )
{
if (rc == true)
writeNbytes(connfd, pResultData, nResultDataSize, WRITE_TIMEOUT_IN_SECONDS);
else
dputs("[sectionsd] Fehler/Timeout bei write");
delete[] pResultData;
}
}
*/
bool channel_in_requested_list(t_channel_id * clist, t_channel_id chid, int len)
{
if(len == 0) return true;