/* Icinga 2 | (c) 2012 Icinga GmbH | GPLv2+ */ #include "icinga/timeperiod.hpp" #include "icinga/timeperiod-ti.cpp" #include "icinga/legacytimeperiod.hpp" #include "base/configtype.hpp" #include "base/objectlock.hpp" #include "base/exception.hpp" #include "base/logger.hpp" #include "base/timer.hpp" #include "base/utility.hpp" #include using namespace icinga; REGISTER_TYPE(TimePeriod); static Timer::Ptr l_UpdateTimer; void TimePeriod::Start(bool runtimeCreated) { ObjectImpl::Start(runtimeCreated); static boost::once_flag once = BOOST_ONCE_INIT; boost::call_once(once, [this]() { l_UpdateTimer = Timer::Create(); l_UpdateTimer->SetInterval(300); l_UpdateTimer->OnTimerExpired.connect([](const Timer * const&) { UpdateTimerHandler(); }); l_UpdateTimer->Start(); }); /* Pre-fill the time period for the next 24 hours. */ double now = Utility::GetTime(); UpdateRegion(now, now + 24 * 3600, true); #ifdef _DEBUG Dump(); #endif /* _DEBUG */ } void TimePeriod::AddSegment(double begin, double end) { ASSERT(OwnsLock()); Log(LogDebug, "TimePeriod") << "Adding segment '" << Utility::FormatDateTime("%c", begin) << "' <-> '" << Utility::FormatDateTime("%c", end) << "' to TimePeriod '" << GetName() << "'"; if (GetValidBegin().IsEmpty() || begin < GetValidBegin()) SetValidBegin(begin); if (GetValidEnd().IsEmpty() || end > GetValidEnd()) SetValidEnd(end); Array::Ptr segments = GetSegments(); if (segments) { /* Try to merge the new segment into an existing segment. */ ObjectLock dlock(segments); for (const Dictionary::Ptr& segment : segments) { if (segment->Get("begin") <= begin && segment->Get("end") >= end) return; /* New segment is fully contained in this segment. */ if (segment->Get("begin") >= begin && segment->Get("end") <= end) { segment->Set("begin", begin); segment->Set("end", end); /* Extend an existing segment to both sides */ return; } if (segment->Get("end") >= begin && segment->Get("end") <= end) { segment->Set("end", end); /* Extend an existing segment to right. */ return; } if (segment->Get("begin") >= begin && segment->Get("begin") <= end) { segment->Set("begin", begin); /* Extend an existing segment to left. */ return; } } } /* Create new segment if we weren't able to merge this into an existing segment. */ Dictionary::Ptr segment = new Dictionary({ { "begin", begin }, { "end", end } }); if (!segments) { segments = new Array(); SetSegments(segments); } segments->Add(segment); } void TimePeriod::AddSegment(const Dictionary::Ptr& segment) { AddSegment(segment->Get("begin"), segment->Get("end")); } void TimePeriod::RemoveSegment(double begin, double end) { ASSERT(OwnsLock()); Log(LogDebug, "TimePeriod") << "Removing segment '" << Utility::FormatDateTime("%c", begin) << "' <-> '" << Utility::FormatDateTime("%c", end) << "' from TimePeriod '" << GetName() << "'"; if (GetValidBegin().IsEmpty() || begin < GetValidBegin()) SetValidBegin(begin); if (GetValidEnd().IsEmpty() || end > GetValidEnd()) SetValidEnd(end); Array::Ptr segments = GetSegments(); if (!segments) return; Array::Ptr newSegments = new Array(); /* Try to split or adjust an existing segment. */ ObjectLock dlock(segments); for (const Dictionary::Ptr& segment : segments) { /* Fully contained in the specified range? */ if (segment->Get("begin") >= begin && segment->Get("end") <= end) // Don't add the old segment, because the segment is fully contained into our range continue; /* Not overlapping at all? */ if (segment->Get("end") < begin || segment->Get("begin") > end) { newSegments->Add(segment); continue; } /* Cut between */ if (segment->Get("begin") < begin && segment->Get("end") > end) { newSegments->Add(new Dictionary({ { "begin", segment->Get("begin") }, { "end", begin } })); newSegments->Add(new Dictionary({ { "begin", end }, { "end", segment->Get("end") } })); // Don't add the old segment, because we have now two new segments and a gap between continue; } /* Adjust the begin/end timestamps so as to not overlap with the specified range. */ if (segment->Get("begin") > begin && segment->Get("begin") < end) segment->Set("begin", end); if (segment->Get("end") > begin && segment->Get("end") < end) segment->Set("end", begin); newSegments->Add(segment); } SetSegments(newSegments); #ifdef _DEBUG Dump(); #endif /* _DEBUG */ } void TimePeriod::RemoveSegment(const Dictionary::Ptr& segment) { RemoveSegment(segment->Get("begin"), segment->Get("end")); } void TimePeriod::PurgeSegments(double end) { ASSERT(OwnsLock()); Log(LogDebug, "TimePeriod") << "Purging segments older than '" << Utility::FormatDateTime("%c", end) << "' from TimePeriod '" << GetName() << "'"; if (GetValidBegin().IsEmpty() || end < GetValidBegin()) return; SetValidBegin(end); Array::Ptr segments = GetSegments(); if (!segments) return; Array::Ptr newSegments = new Array(); /* Remove old segments. */ ObjectLock dlock(segments); for (const Dictionary::Ptr& segment : segments) { if (segment->Get("end") >= end) newSegments->Add(segment); } SetSegments(newSegments); } void TimePeriod::Merge(const TimePeriod::Ptr& timeperiod, bool include) { Log(LogDebug, "TimePeriod") << "Merge TimePeriod '" << GetName() << "' with '" << timeperiod->GetName() << "' " << "Method: " << (include ? "include" : "exclude"); Array::Ptr segments = timeperiod->GetSegments(); if (segments) { ObjectLock dlock(segments); ObjectLock ilock(this); for (const Dictionary::Ptr& segment : segments) { include ? AddSegment(segment) : RemoveSegment(segment); } } } void TimePeriod::UpdateRegion(double begin, double end, bool clearExisting) { if (clearExisting) { ObjectLock olock(this); SetSegments(new Array()); } else { if (begin < GetValidEnd()) begin = GetValidEnd(); if (end < GetValidEnd()) return; } Array::Ptr segments = GetUpdate()->Invoke({ this, begin, end }); { ObjectLock olock(this); RemoveSegment(begin, end); if (segments) { ObjectLock dlock(segments); for (const Dictionary::Ptr& segment : segments) { AddSegment(segment); } } } bool preferInclude = GetPreferIncludes(); /* First handle the non preferred timeranges */ Array::Ptr timeranges = preferInclude ? GetExcludes() : GetIncludes(); if (timeranges) { ObjectLock olock(timeranges); for (const String& name : timeranges) { const TimePeriod::Ptr timeperiod = TimePeriod::GetByName(name); if (timeperiod) Merge(timeperiod, !preferInclude); } } /* Preferred timeranges must be handled at the end */ timeranges = preferInclude ? GetIncludes() : GetExcludes(); if (timeranges) { ObjectLock olock(timeranges); for (const String& name : timeranges) { const TimePeriod::Ptr timeperiod = TimePeriod::GetByName(name); if (timeperiod) Merge(timeperiod, preferInclude); } } } bool TimePeriod::GetIsInside() const { return IsInside(Utility::GetTime()); } bool TimePeriod::IsInside(double ts) const { ObjectLock olock(this); if (GetValidBegin().IsEmpty() || ts < GetValidBegin() || GetValidEnd().IsEmpty() || ts > GetValidEnd()) return true; /* Assume that all invalid regions are "inside". */ Array::Ptr segments = GetSegments(); if (segments) { ObjectLock dlock(segments); for (const Dictionary::Ptr& segment : segments) { if (ts > segment->Get("begin") && ts < segment->Get("end")) return true; } } return false; } double TimePeriod::FindNextTransition(double begin) { ObjectLock olock(this); Array::Ptr segments = GetSegments(); double closestTransition = -1; if (segments) { ObjectLock dlock(segments); for (const Dictionary::Ptr& segment : segments) { if (segment->Get("begin") > begin && (segment->Get("begin") < closestTransition || closestTransition == -1)) closestTransition = segment->Get("begin"); if (segment->Get("end") > begin && (segment->Get("end") < closestTransition || closestTransition == -1)) closestTransition = segment->Get("end"); } } return closestTransition; } void TimePeriod::UpdateTimerHandler() { double now = Utility::GetTime(); for (const TimePeriod::Ptr& tp : ConfigType::GetObjectsByType()) { if (!tp->IsActive()) continue; double valid_end; { ObjectLock olock(tp); tp->PurgeSegments(now - 3600); valid_end = tp->GetValidEnd(); } tp->UpdateRegion(valid_end, now + 24 * 3600, false); #ifdef _DEBUG tp->Dump(); #endif /* _DEBUG */ } } void TimePeriod::Dump() { ObjectLock olock(this); Array::Ptr segments = GetSegments(); Log(LogDebug, "TimePeriod") << "Dumping TimePeriod '" << GetName() << "'"; Log(LogDebug, "TimePeriod") << "Valid from '" << Utility::FormatDateTime("%c", GetValidBegin()) << "' until '" << Utility::FormatDateTime("%c", GetValidEnd()); if (segments) { ObjectLock dlock(segments); for (const Dictionary::Ptr& segment : segments) { Log(LogDebug, "TimePeriod") << "Segment: " << Utility::FormatDateTime("%c", segment->Get("begin")) << " <-> " << Utility::FormatDateTime("%c", segment->Get("end")); } } Log(LogDebug, "TimePeriod", "---"); } void TimePeriod::ValidateRanges(const Lazy& lvalue, const ValidationUtils& utils) { if (!lvalue()) return; /* create a fake time environment to validate the definitions */ time_t refts = Utility::GetTime(); tm reference = Utility::LocalTime(refts); Array::Ptr segments = new Array(); ObjectLock olock(lvalue()); for (const Dictionary::Pair& kv : lvalue()) { try { tm begin_tm, end_tm; int stride; LegacyTimePeriod::ParseTimeRange(kv.first, &begin_tm, &end_tm, &stride, &reference); } catch (const std::exception& ex) { BOOST_THROW_EXCEPTION(ValidationError(this, { "ranges" }, "Invalid time specification '" + kv.first + "': " + ex.what())); } try { LegacyTimePeriod::ProcessTimeRanges(kv.second, &reference, segments); } catch (const std::exception& ex) { BOOST_THROW_EXCEPTION(ValidationError(this, { "ranges" }, "Invalid time range definition '" + kv.second + "': " + ex.what())); } } }