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vdr/timers.c
Klaus Schmidinger 396d0ad367 Version 1.3.46 
- Fixed handling broken PMT records (thanks to Marcel Wiesweg for pointing out how
  to detect these).
- Added a missing "Button$" for the Timer button and "Key$" in skinclassic.c
  (thanks to Rolf Ahrenberg).
- Fixed broken entry 'A111.1W' in sources.conf (reported by Luca Olivetti).
- Replaced the obsolete entry 'S21.5E' in the default 'diseqc.conf' with 'S13.0E'
  (reported by Ville Skyttä).
- Fixed learning keys when VDR is already running (thanks to Jurij Retzlaff).
- Fixed handling the system time transponder setting in the Setup/EPG menu, which
  was broken by the min/max fix in cMenuEditIntItem.
- VPS timers now record only events that have exactly the given start time.
  This fix also implements recording several subsequent events that have the
  same VPS time (like a sports event with intermittent news breaks).
- When checking for timers that have entered the "VPS margin", any free devices are
  now used to switch to the needed transponder. This improves cases where more than
  one VPS timer is about to start.
- Fixed handling the VPS margin in case the event's duration is shorter than the
  margin.
- Fixed handling VPS timers in case the primary device needs to switch to the
  timer's transponder.
- Now avoiding the 'actual' device when starting a recording, so that a Transfer
  Mode for live tv isn't interrupted.
- Fixed a typo in skins.h (thanks to Alexander Rieger).
- cSkins::QueueMessage() called from a background thread with an empty message
  now clears all messages that have been previously queued by that thread and have
  not yet beed displayed (thanks to Alexander Rieger).
- Fixed handling the color button texts when switching from the 'Schedule' menu of
  a channel without EPG info to the 'What's on now' menu (reported by Rolf
  Ahrenberg).
- cMenuEditIntItem and cMenuEditChanItem can now be given strings to label the
  minimum and maximum values, and the case that no channel has been selected,
  respectively.
- The initial channel and volume can now be defined in the "Setup/Miscellaneous"
  menu (based on a patch from Thomas Keil).
- When hitting the end of a recording in fast forward mode, VDR no longer switches
  back to normal speed if the recording is already finished (thanks to Reinhard
  Nissl).
- No longer calling cPlugin::ProcessArgs() if VDR is run with the --help or
  --version option, to avoid error messages from plugins (reported by Udo Richter).
- Now checking whether there is any text before calling cStatus::MsgOsdTextItem()
  (reported by Joachim Wilke).
2006-04-09 18:00:00 +02:00

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/*
* timers.c: Timer handling
*
* See the main source file 'vdr.c' for copyright information and
* how to reach the author.
*
* $Id: timers.c 1.57 2006/04/09 09:10:08 kls Exp $
*/
#include "timers.h"
#include <ctype.h>
#include "channels.h"
#include "device.h"
#include "i18n.h"
#include "libsi/si.h"
#include "remote.h"
// IMPORTANT NOTE: in the 'sscanf()' calls there is a blank after the '%d'
// format characters in order to allow any number of blanks after a numeric
// value!
// -- cTimer -----------------------------------------------------------------
cTimer::cTimer(bool Instant, bool Pause, cChannel *Channel)
{
startTime = stopTime = 0;
lastSetEvent = 0;
recording = pending = inVpsMargin = false;
flags = tfNone;
if (Instant)
SetFlags(tfActive | tfInstant);
channel = Channel ? Channel : Channels.GetByNumber(cDevice::CurrentChannel());
time_t t = time(NULL);
struct tm tm_r;
struct tm *now = localtime_r(&t, &tm_r);
day = SetTime(t, 0);
weekdays = 0;
start = now->tm_hour * 100 + now->tm_min;
stop = now->tm_hour * 60 + now->tm_min + Setup.InstantRecordTime;
stop = (stop / 60) * 100 + (stop % 60);
if (stop >= 2400)
stop -= 2400;
priority = Pause ? Setup.PausePriority : Setup.DefaultPriority;
lifetime = Pause ? Setup.PauseLifetime : Setup.DefaultLifetime;
*file = 0;
aux = NULL;
event = NULL;
if (Instant && channel)
snprintf(file, sizeof(file), "%s%s", Setup.MarkInstantRecord ? "@" : "", *Setup.NameInstantRecord ? Setup.NameInstantRecord : channel->Name());
}
cTimer::cTimer(const cEvent *Event)
{
startTime = stopTime = 0;
lastSetEvent = 0;
recording = pending = inVpsMargin = false;
flags = tfActive;
if (Event->Vps() && Setup.UseVps)
SetFlags(tfVps);
channel = Channels.GetByChannelID(Event->ChannelID(), true);
time_t tstart = (flags & tfVps) ? Event->Vps() : Event->StartTime();
time_t tstop = tstart + Event->Duration();
if (!(HasFlags(tfVps))) {
tstop += Setup.MarginStop * 60;
tstart -= Setup.MarginStart * 60;
}
struct tm tm_r;
struct tm *time = localtime_r(&tstart, &tm_r);
day = SetTime(tstart, 0);
weekdays = 0;
start = time->tm_hour * 100 + time->tm_min;
time = localtime_r(&tstop, &tm_r);
stop = time->tm_hour * 100 + time->tm_min;
if (stop >= 2400)
stop -= 2400;
priority = Setup.DefaultPriority;
lifetime = Setup.DefaultLifetime;
*file = 0;
const char *Title = Event->Title();
if (!isempty(Title))
strn0cpy(file, Event->Title(), sizeof(file));
aux = NULL;
event = NULL; // let SetEvent() be called to get a log message
}
cTimer::~cTimer()
{
free(aux);
}
cTimer& cTimer::operator= (const cTimer &Timer)
{
memcpy(this, &Timer, sizeof(*this));
if (aux)
aux = strdup(aux);
event = NULL;
lastSetEvent = 0;
return *this;
}
int cTimer::Compare(const cListObject &ListObject) const
{
cTimer *ti = (cTimer *)&ListObject;
time_t t1 = StartTime();
time_t t2 = ti->StartTime();
int r = t1 - t2;
if (r == 0)
r = ti->priority - priority;
return r;
}
cString cTimer::ToText(bool UseChannelID)
{
char *buffer;
strreplace(file, ':', '|');
asprintf(&buffer, "%u:%s:%s:%04d:%04d:%d:%d:%s:%s\n", flags, UseChannelID ? *Channel()->GetChannelID().ToString() : *itoa(Channel()->Number()), *PrintDay(day, weekdays), start, stop, priority, lifetime, file, aux ? aux : "");
strreplace(file, '|', ':');
return cString(buffer, true);
}
cString cTimer::ToDescr(void) const
{
char *buffer;
asprintf(&buffer, "%d (%d %04d-%04d %s'%s')", Index() + 1, Channel()->Number(), start, stop, HasFlags(tfVps) ? "VPS " : "", file);
return cString(buffer, true);
}
int cTimer::TimeToInt(int t)
{
return (t / 100 * 60 + t % 100) * 60;
}
bool cTimer::ParseDay(const char *s, time_t &Day, int &WeekDays)
{
// possible formats are:
// 19
// 2005-03-19
// MTWTFSS
// MTWTFSS@19
// MTWTFSS@2005-03-19
Day = 0;
WeekDays = 0;
s = skipspace(s);
if (!*s)
return false;
const char *a = strchr(s, '@');
const char *d = a ? a + 1 : isdigit(*s) ? s : NULL;
if (d) {
if (strlen(d) == 10) {
struct tm tm_r;
if (3 == sscanf(d, "%d-%d-%d", &tm_r.tm_year, &tm_r.tm_mon, &tm_r.tm_mday)) {
tm_r.tm_year -= 1900;
tm_r.tm_mon--;
tm_r.tm_hour = tm_r.tm_min = tm_r.tm_sec = 0;
tm_r.tm_isdst = -1; // makes sure mktime() will determine the correct DST setting
Day = mktime(&tm_r);
}
else
return false;
}
else {
// handle "day of month" for compatibility with older versions:
char *tail = NULL;
int day = strtol(d, &tail, 10);
if (tail && *tail || day < 1 || day > 31)
return false;
time_t t = time(NULL);
int DaysToCheck = 61; // 61 to handle months with 31/30/31
for (int i = -1; i <= DaysToCheck; i++) {
time_t t0 = IncDay(t, i);
if (GetMDay(t0) == day) {
Day = SetTime(t0, 0);
break;
}
}
}
}
if (a || !isdigit(*s)) {
if ((a && a - s == 7) || strlen(s) == 7) {
for (const char *p = s + 6; p >= s; p--) {
WeekDays <<= 1;
WeekDays |= (*p != '-');
}
}
else
return false;
}
return true;
}
cString cTimer::PrintDay(time_t Day, int WeekDays)
{
#define DAYBUFFERSIZE 32
char buffer[DAYBUFFERSIZE];
char *b = buffer;
if (WeekDays) {
const char *w = tr("MTWTFSS");
while (*w) {
*b++ = (WeekDays & 1) ? *w : '-';
WeekDays >>= 1;
w++;
}
if (Day)
*b++ = '@';
}
if (Day) {
struct tm tm_r;
localtime_r(&Day, &tm_r);
b += strftime(b, DAYBUFFERSIZE - (b - buffer), "%Y-%m-%d", &tm_r);
}
*b = 0;
return buffer;
}
cString cTimer::PrintFirstDay(void) const
{
if (weekdays) {
cString s = PrintDay(day, weekdays);
if (strlen(s) == 18)
return *s + 8;
}
return ""; // not NULL, so the caller can always use the result
}
bool cTimer::Parse(const char *s)
{
char *channelbuffer = NULL;
char *daybuffer = NULL;
char *filebuffer = NULL;
free(aux);
aux = NULL;
//XXX Apparently sscanf() doesn't work correctly if the last %a argument
//XXX results in an empty string (this first occured when the EIT gathering
//XXX was put into a separate thread - don't know why this happens...
//XXX As a cure we copy the original string and add a blank.
//XXX If anybody can shed some light on why sscanf() failes here, I'd love
//XXX to hear about that!
char *s2 = NULL;
int l2 = strlen(s);
while (l2 > 0 && isspace(s[l2 - 1]))
l2--;
if (s[l2 - 1] == ':') {
s2 = MALLOC(char, l2 + 3);
strcat(strn0cpy(s2, s, l2 + 1), " \n");
s = s2;
}
bool result = false;
if (8 <= sscanf(s, "%u :%a[^:]:%a[^:]:%d :%d :%d :%d :%a[^:\n]:%a[^\n]", &flags, &channelbuffer, &daybuffer, &start, &stop, &priority, &lifetime, &filebuffer, &aux)) {
ClrFlags(tfRecording);
if (aux && !*skipspace(aux)) {
free(aux);
aux = NULL;
}
//TODO add more plausibility checks
result = ParseDay(daybuffer, day, weekdays);
strn0cpy(file, filebuffer, MaxFileName);
strreplace(file, '|', ':');
if (isnumber(channelbuffer))
channel = Channels.GetByNumber(atoi(channelbuffer));
else
channel = Channels.GetByChannelID(tChannelID::FromString(channelbuffer), true, true);
if (!channel) {
esyslog("ERROR: channel %s not defined", channelbuffer);
result = false;
}
}
free(channelbuffer);
free(daybuffer);
free(filebuffer);
free(s2);
return result;
}
bool cTimer::Save(FILE *f)
{
return fprintf(f, "%s", *ToText(true)) > 0;
}
bool cTimer::IsSingleEvent(void) const
{
return !weekdays;
}
int cTimer::GetMDay(time_t t)
{
struct tm tm_r;
return localtime_r(&t, &tm_r)->tm_mday;
}
int cTimer::GetWDay(time_t t)
{
struct tm tm_r;
int weekday = localtime_r(&t, &tm_r)->tm_wday;
return weekday == 0 ? 6 : weekday - 1; // we start with monday==0!
}
bool cTimer::DayMatches(time_t t) const
{
return IsSingleEvent() ? SetTime(t, 0) == day : (weekdays & (1 << GetWDay(t))) != 0;
}
time_t cTimer::IncDay(time_t t, int Days)
{
struct tm tm_r;
tm tm = *localtime_r(&t, &tm_r);
tm.tm_mday += Days; // now tm_mday may be out of its valid range
int h = tm.tm_hour; // save original hour to compensate for DST change
tm.tm_isdst = -1; // makes sure mktime() will determine the correct DST setting
t = mktime(&tm); // normalize all values
tm.tm_hour = h; // compensate for DST change
return mktime(&tm); // calculate final result
}
time_t cTimer::SetTime(time_t t, int SecondsFromMidnight)
{
struct tm tm_r;
tm tm = *localtime_r(&t, &tm_r);
tm.tm_hour = SecondsFromMidnight / 3600;
tm.tm_min = (SecondsFromMidnight % 3600) / 60;
tm.tm_sec = SecondsFromMidnight % 60;
tm.tm_isdst = -1; // makes sure mktime() will determine the correct DST setting
return mktime(&tm);
}
char *cTimer::SetFile(const char *File)
{
if (!isempty(File))
strn0cpy(file, File, sizeof(file));
return file;
}
bool cTimer::Matches(time_t t, bool Directly, int Margin) const
{
startTime = stopTime = 0;
if (t == 0)
t = time(NULL);
int begin = TimeToInt(start); // seconds from midnight
int length = TimeToInt(stop) - begin;
if (length < 0)
length += SECSINDAY;
if (IsSingleEvent()) {
startTime = SetTime(day, begin);
stopTime = startTime + length;
}
else {
for (int i = -1; i <= 7; i++) {
time_t t0 = IncDay(t, i);
if (DayMatches(t0)) {
time_t a = SetTime(t0, begin);
time_t b = a + length;
if ((!day || a >= day) && t <= b) {
startTime = a;
stopTime = b;
break;
}
}
}
if (!startTime)
startTime = day; // just to have something that's more than a week in the future
else if (!Directly && (t > startTime || t > day + SECSINDAY + 3600)) // +3600 in case of DST change
day = 0;
}
if (HasFlags(tfActive)) {
if (HasFlags(tfVps) && !Directly && event && event->Vps() && event->Schedule() && event->Schedule()->PresentSeenWithin(30)) {
startTime = event->StartTime();
stopTime = event->EndTime();
return event->IsRunning(true);
}
return startTime <= t + Margin && t < stopTime; // must stop *before* stopTime to allow adjacent timers
}
return false;
}
#define FULLMATCH 1000
int cTimer::Matches(const cEvent *Event, int *Overlap) const
{
// Overlap is the percentage of the Event's duration that is covered by
// this timer (based on FULLMATCH for finer granularity than just 100).
// To make sure a VPS timer can be distinguished from a plain 100% overlap,
// it gets an additional 100 added, and a VPS event that is actually running
// gets 200 added to the FULLMATCH.
if (HasFlags(tfActive) && channel->GetChannelID() == Event->ChannelID()) {
bool UseVps = HasFlags(tfVps) && Event->Vps();
Matches(UseVps ? Event->Vps() : Event->StartTime(), true);
int overlap = 0;
if (UseVps)
overlap = (startTime == Event->Vps()) ? FULLMATCH + (Event->IsRunning() ? 200 : 100) : 0;
if (!overlap) {
if (startTime <= Event->StartTime() && Event->EndTime() <= stopTime)
overlap = FULLMATCH;
else if (stopTime <= Event->StartTime() || Event->EndTime() <= startTime)
overlap = 0;
else
overlap = (min(stopTime, Event->EndTime()) - max(startTime, Event->StartTime())) * FULLMATCH / max(Event->Duration(), 1);
}
startTime = stopTime = 0;
if (Overlap)
*Overlap = overlap;
if (UseVps)
return overlap > FULLMATCH ? tmFull : tmNone;
return overlap >= FULLMATCH ? tmFull : overlap > 0 ? tmPartial : tmNone;
}
return tmNone;
}
#define EXPIRELATENCY 60 // seconds (just in case there's a short glitch in the VPS signal)
bool cTimer::Expired(void) const
{
if (IsSingleEvent() && !Recording() && StopTime() + EXPIRELATENCY <= time(NULL)) {
if (HasFlags(tfVps) && event && event->Vps())
return event->RunningStatus() == SI::RunningStatusNotRunning;
else
return true;
}
return false;
}
time_t cTimer::StartTime(void) const
{
if (!startTime)
Matches();
return startTime;
}
time_t cTimer::StopTime(void) const
{
if (!stopTime)
Matches();
return stopTime;
}
#define EPGLIMITBEFORE (1 * 3600) // Time in seconds before a timer's start time and
#define EPGLIMITAFTER (1 * 3600) // after its stop time within which EPG events will be taken into consideration.
void cTimer::SetEventFromSchedule(const cSchedules *Schedules)
{
cSchedulesLock SchedulesLock;
if (!Schedules) {
lastSetEvent = 0; // forces setting the event, even if the schedule hasn't been modified
if (!(Schedules = cSchedules::Schedules(SchedulesLock)))
return;
}
const cSchedule *Schedule = Schedules->GetSchedule(Channel());
if (Schedule && Schedule->Events()->First()) {
time_t now = time(NULL);
if (!lastSetEvent || Schedule->Modified() >= lastSetEvent) {
lastSetEvent = now;
const cEvent *Event = NULL;
if (HasFlags(tfVps) && Schedule->Events()->First()->Vps()) {
if (event && Recording())
return; // let the recording end first
// VPS timers only match if their start time exactly matches the event's VPS time:
for (const cEvent *e = Schedule->Events()->First(); e; e = Schedule->Events()->Next(e)) {
if (e->StartTime() && e->RunningStatus() != SI::RunningStatusNotRunning) { // skip outdated events
int overlap = 0;
Matches(e, &overlap);
if (overlap > FULLMATCH) {
Event = e;
break; // take the first matching event
}
}
}
if (!Event && event && (now <= event->EndTime() || Matches(0, true)))
return; // stay with the old event until the timer has completely expired
}
else {
// Normal timers match the event they have the most overlap with:
int Overlap = 0;
// Set up the time frame within which to check events:
Matches(0, true);
time_t TimeFrameBegin = StartTime() - EPGLIMITBEFORE;
time_t TimeFrameEnd = StopTime() + EPGLIMITAFTER;
for (const cEvent *e = Schedule->Events()->First(); e; e = Schedule->Events()->Next(e)) {
if (e->EndTime() < TimeFrameBegin)
continue; // skip events way before the timer starts
if (e->StartTime() > TimeFrameEnd)
break; // the rest is way after the timer ends
int overlap = 0;
Matches(e, &overlap);
if (overlap && overlap >= Overlap) {
if (Event && overlap == Overlap && e->Duration() <= Event->Duration())
continue; // if overlap is the same, we take the longer event
Overlap = overlap;
Event = e;
}
}
}
SetEvent(Event);
}
}
}
void cTimer::SetEvent(const cEvent *Event)
{
if (event != Event) { //XXX TODO check event data, too???
if (Event)
isyslog("timer %s set to event %s", *ToDescr(), *Event->ToDescr());
else
isyslog("timer %s set to no event", *ToDescr());
event = Event;
}
}
void cTimer::SetRecording(bool Recording)
{
recording = Recording;
if (recording)
SetFlags(tfRecording);
else
ClrFlags(tfRecording);
isyslog("timer %s %s", *ToDescr(), recording ? "start" : "stop");
}
void cTimer::SetPending(bool Pending)
{
pending = Pending;
}
void cTimer::SetInVpsMargin(bool InVpsMargin)
{
if (InVpsMargin && !inVpsMargin)
isyslog("timer %s entered VPS margin", *ToDescr());
inVpsMargin = InVpsMargin;
}
void cTimer::SetPriority(int Priority)
{
priority = Priority;
}
void cTimer::SetFlags(uint Flags)
{
flags |= Flags;
}
void cTimer::ClrFlags(uint Flags)
{
flags &= ~Flags;
}
void cTimer::InvFlags(uint Flags)
{
flags ^= Flags;
}
bool cTimer::HasFlags(uint Flags) const
{
return (flags & Flags) == Flags;
}
void cTimer::Skip(void)
{
day = IncDay(SetTime(StartTime(), 0), 1);
SetEvent(NULL);
}
void cTimer::OnOff(void)
{
if (IsSingleEvent())
InvFlags(tfActive);
else if (day) {
day = 0;
ClrFlags(tfActive);
}
else if (HasFlags(tfActive))
Skip();
else
SetFlags(tfActive);
SetEvent(NULL);
Matches(); // refresh start and end time
}
// -- cTimers ----------------------------------------------------------------
cTimers Timers;
cTimers::cTimers(void)
{
state = 0;
beingEdited = 0;;
lastSetEvents = 0;
lastDeleteExpired = 0;
}
cTimer *cTimers::GetTimer(cTimer *Timer)
{
for (cTimer *ti = First(); ti; ti = Next(ti)) {
if (ti->Channel() == Timer->Channel() &&
(ti->WeekDays() && ti->WeekDays() == Timer->WeekDays() || !ti->WeekDays() && ti->Day() == Timer->Day()) &&
ti->Start() == Timer->Start() &&
ti->Stop() == Timer->Stop())
return ti;
}
return NULL;
}
cTimer *cTimers::GetMatch(time_t t)
{
static int LastPending = -1;
cTimer *t0 = NULL;
for (cTimer *ti = First(); ti; ti = Next(ti)) {
if (!ti->Recording() && ti->Matches(t)) {
if (ti->Pending()) {
if (ti->Index() > LastPending)
LastPending = ti->Index();
else
continue;
}
if (!t0 || ti->Priority() > t0->Priority())
t0 = ti;
}
}
if (!t0)
LastPending = -1;
return t0;
}
cTimer *cTimers::GetMatch(const cEvent *Event, int *Match)
{
cTimer *t = NULL;
int m = tmNone;
for (cTimer *ti = First(); ti; ti = Next(ti)) {
int tm = ti->Matches(Event);
if (tm > m) {
t = ti;
m = tm;
if (m == tmFull)
break;
}
}
if (Match)
*Match = m;
return t;
}
cTimer *cTimers::GetNextActiveTimer(void)
{
cTimer *t0 = NULL;
for (cTimer *ti = First(); ti; ti = Next(ti)) {
if ((ti->HasFlags(tfActive)) && (!t0 || ti->StopTime() > time(NULL) && ti->Compare(*t0) < 0))
t0 = ti;
}
return t0;
}
void cTimers::SetModified(void)
{
state++;
}
bool cTimers::Modified(int &State)
{
bool Result = state != State;
State = state;
return Result;
}
void cTimers::SetEvents(void)
{
if (time(NULL) - lastSetEvents < 5)
return;
cSchedulesLock SchedulesLock(false, 100);
const cSchedules *Schedules = cSchedules::Schedules(SchedulesLock);
if (Schedules) {
if (!lastSetEvents || Schedules->Modified() >= lastSetEvents) {
for (cTimer *ti = First(); ti; ti = Next(ti)) {
if (cRemote::HasKeys())
return; // react immediately on user input
ti->SetEventFromSchedule(Schedules);
}
}
}
lastSetEvents = time(NULL);
}
void cTimers::DeleteExpired(void)
{
if (time(NULL) - lastDeleteExpired < 30)
return;
cTimer *ti = First();
while (ti) {
cTimer *next = Next(ti);
if (ti->Expired()) {
isyslog("deleting timer %s", *ti->ToDescr());
Del(ti);
SetModified();
}
ti = next;
}
lastDeleteExpired = time(NULL);
}
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