/****************************************************************************** * Icinga 2 * * Copyright (C) 2012 Icinga Development Team (http://www.icinga.org/) * * * * This program 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 2 * * of the License, or (at your option) any later version. * * * * This program 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 this program; if not, write to the Free Software Foundation * * Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301, USA. * ******************************************************************************/ #include "icinga/timeperiod.h" #include "config/configitem.h" #include "base/dynamictype.h" #include "base/scriptfunction.h" #include "base/objectlock.h" #include "base/logger_fwd.h" #include "base/timer.h" #include "base/utility.h" #include #include using namespace icinga; REGISTER_TYPE(TimePeriod); REGISTER_SCRIPTFUNCTION(EmptyTimePeriod, &TimePeriod::EmptyTimePeriodUpdate); REGISTER_SCRIPTFUNCTION(EvenMinutesTimePeriod, &TimePeriod::EvenMinutesTimePeriodUpdate); static Timer::Ptr l_UpdateTimer; void TimePeriod::Start(void) { DynamicObject::Start(); if (!l_UpdateTimer) { l_UpdateTimer = boost::make_shared(); l_UpdateTimer->SetInterval(300); l_UpdateTimer->OnTimerExpired.connect(boost::bind(&TimePeriod::UpdateTimerHandler)); l_UpdateTimer->Start(); } /* Pre-fill the time period for the next 24 hours. */ double now = Utility::GetTime(); UpdateRegion(now, now + 24 * 3600, true); Dump(); } String TimePeriod::GetDisplayName(void) const { if (!m_DisplayName.IsEmpty()) return m_DisplayName; else return GetName(); } Dictionary::Ptr TimePeriod::GetRanges(void) const { return m_Ranges; } void TimePeriod::AddSegment(double begin, double end) { ASSERT(OwnsLock()); if (m_ValidBegin.IsEmpty() || begin < m_ValidBegin) m_ValidBegin = begin; if (m_ValidEnd.IsEmpty() || end > m_ValidEnd) m_ValidEnd = end; Array::Ptr segments = m_Segments; if (segments) { /* Try to merge the new segment into an existing segment. */ ObjectLock dlock(segments); BOOST_FOREACH(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") > begin) { segment->Set("end", end); /* Extend an existing segment. */ return; } if (segment->Get("begin") > begin && segment->Get("begin") < end) { segment->Set("begin", begin); /* Extend an existing segment. */ return; } } } /* Create new segment if we weren't able to merge this into an existing segment. */ Dictionary::Ptr segment = boost::make_shared(); segment->Set("begin", begin); segment->Set("end", end); if (!segments) { segments = boost::make_shared(); m_Segments = 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()); if (m_ValidBegin.IsEmpty() || begin < m_ValidBegin) m_ValidBegin = begin; if (m_ValidEnd.IsEmpty() || end > m_ValidEnd) m_ValidEnd = end; Array::Ptr segments = m_Segments; if (!segments) return; Array::Ptr newSegments = boost::make_shared(); /* Try to split or adjust an existing segment. */ ObjectLock dlock(segments); BOOST_FOREACH(const Dictionary::Ptr& segment, segments) { /* Fully contained in the specified range? */ if (segment->Get("begin") >= begin && segment->Get("end") <= end) continue; /* Not overlapping at all? */ if (segment->Get("end") < begin || segment->Get("begin") > end) { newSegments->Add(segment); continue; } /* Adjust the begin/end timestamps so as to not overlap with the specified range. */ if (segment->Get("begin") < end) segment->Set("begin", end); if (segment->Get("end") > begin) segment->Set("end", begin); newSegments->Add(segment); } m_Segments = newSegments; } void TimePeriod::PurgeSegments(double end) { ASSERT(OwnsLock()); if (m_ValidBegin.IsEmpty() || end < m_ValidBegin) return; m_ValidBegin = end; Array::Ptr segments = m_Segments; if (!segments) return; Array::Ptr newSegments = boost::make_shared(); /* Remove old segments. */ ObjectLock dlock(segments); BOOST_FOREACH(const Dictionary::Ptr& segment, segments) { if (segment->Get("end") >= end) newSegments->Add(segment); } m_Segments = newSegments; } void TimePeriod::UpdateRegion(double begin, double end, bool clearExisting) { if (!clearExisting) { if (begin < m_ValidEnd) begin = m_ValidEnd; if (end < m_ValidEnd) return; } TimePeriod::Ptr self = GetSelf(); std::vector arguments; arguments.push_back(self); arguments.push_back(begin); arguments.push_back(end); Array::Ptr segments = InvokeMethod("update", arguments); { ObjectLock olock(this); RemoveSegment(begin, end); if (segments) { ObjectLock dlock(segments); BOOST_FOREACH(const Dictionary::Ptr& segment, segments) { AddSegment(segment); } } } } bool TimePeriod::IsInside(double ts) const { ObjectLock olock(this); if (m_ValidBegin.IsEmpty() || ts < m_ValidBegin || m_ValidEnd.IsEmpty() || ts > m_ValidEnd) return true; /* Assume that all invalid regions are "inside". */ Array::Ptr segments = m_Segments; if (segments) { ObjectLock dlock(segments); BOOST_FOREACH(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 = m_Segments; double closestTransition = -1; if (segments) { ObjectLock dlock(segments); BOOST_FOREACH(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(void) { double now = Utility::GetTime(); BOOST_FOREACH(const TimePeriod::Ptr& tp, DynamicType::GetObjects()) { /* Only update time periods that have been defined on this node. */ if (!ConfigItem::GetObject("TimePeriod", tp->GetName())) continue; double valid_end; { ObjectLock olock(tp); tp->PurgeSegments(now - 3600); valid_end = tp->m_ValidEnd; } tp->UpdateRegion(valid_end, now + 24 * 3600, false); tp->Dump(); } } Array::Ptr TimePeriod::EmptyTimePeriodUpdate(const TimePeriod::Ptr&, double, double) { Array::Ptr segments = boost::make_shared(); return segments; } Array::Ptr TimePeriod::EvenMinutesTimePeriodUpdate(const TimePeriod::Ptr&, double begin, double end) { Array::Ptr segments = boost::make_shared(); for (long t = begin / 60 - 1; t * 60 < end; t++) { if ((t % 2) == 0) { Dictionary::Ptr segment = boost::make_shared(); segment->Set("begin", t * 60); segment->Set("end", (t + 1) * 60); segments->Add(segment); } } return segments; } void TimePeriod::Dump(void) { Array::Ptr segments = m_Segments; Log(LogDebug, "icinga", "Dumping TimePeriod '" + GetName() + "'"); if (segments) { ObjectLock dlock(segments); BOOST_FOREACH(const Dictionary::Ptr& segment, segments) { Log(LogDebug, "icinga", "Segment: " + Utility::FormatDateTime("%c", segment->Get("begin")) + " <-> " + Utility::FormatDateTime("%c", segment->Get("end"))); } } Log(LogDebug, "icinga", "---"); } void TimePeriod::InternalSerialize(const Dictionary::Ptr& bag, int attributeTypes) const { DynamicObject::InternalSerialize(bag, attributeTypes); if (attributeTypes & Attribute_Config) { bag->Set("display_name", m_DisplayName); bag->Set("ranges", m_Ranges); } bag->Set("valid_begin", m_ValidBegin); bag->Set("valid_end", m_ValidEnd); bag->Set("segments", m_Segments); } void TimePeriod::InternalDeserialize(const Dictionary::Ptr& bag, int attributeTypes) { DynamicObject::InternalDeserialize(bag, attributeTypes); if (attributeTypes & Attribute_Config) { m_DisplayName = bag->Get("display_name"); m_Ranges = bag->Get("ranges"); } m_ValidBegin = bag->Get("valid_begin"); m_ValidEnd = bag->Get("valid_end"); m_Segments = bag->Get("segments"); }