// Copyright 2016 Google Inc. All Rights Reserved. // // Licensed under the Apache License, Version 2.0 (the "License"); // you may not use this file except in compliance with the License. // You may obtain a copy of the License at // // https://www.apache.org/licenses/LICENSE-2.0 // // Unless required by applicable law or agreed to in writing, software // distributed under the License is distributed on an "AS IS" BASIS, // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. // See the License for the specific language governing permissions and // limitations under the License. #include "time_zone_impl.h" #include #include #include #include #include #include "time_zone_fixed.h" namespace absl { namespace time_internal { namespace cctz { namespace { // time_zone::Impls are linked into a map to support fast lookup by name. using TimeZoneImplByName = std::unordered_map; TimeZoneImplByName* time_zone_map = nullptr; // Mutual exclusion for time_zone_map. std::mutex& TimeZoneMutex() { // This mutex is intentionally "leaked" to avoid the static deinitialization // order fiasco (std::mutex's destructor is not trivial on many platforms). static std::mutex* time_zone_mutex = new std::mutex; return *time_zone_mutex; } } // namespace time_zone time_zone::Impl::UTC() { return time_zone(UTCImpl()); } bool time_zone::Impl::LoadTimeZone(const std::string& name, time_zone* tz) { const time_zone::Impl* const utc_impl = UTCImpl(); // First check for UTC (which is never a key in time_zone_map). auto offset = seconds::zero(); if (FixedOffsetFromName(name, &offset) && offset == seconds::zero()) { *tz = time_zone(utc_impl); return true; } // Then check, under a shared lock, whether the time zone has already // been loaded. This is the common path. TODO: Move to shared_mutex. { std::lock_guard lock(TimeZoneMutex()); if (time_zone_map != nullptr) { TimeZoneImplByName::const_iterator itr = time_zone_map->find(name); if (itr != time_zone_map->end()) { *tz = time_zone(itr->second); return itr->second != utc_impl; } } } // Now check again, under an exclusive lock. std::lock_guard lock(TimeZoneMutex()); if (time_zone_map == nullptr) time_zone_map = new TimeZoneImplByName; const Impl*& impl = (*time_zone_map)[name]; if (impl == nullptr) { // The first thread in loads the new time zone. Impl* new_impl = new Impl(name); new_impl->zone_ = TimeZoneIf::Load(new_impl->name_); if (new_impl->zone_ == nullptr) { delete new_impl; // free the nascent Impl impl = utc_impl; // and fallback to UTC } else { impl = new_impl; // install new time zone } } *tz = time_zone(impl); return impl != utc_impl; } void time_zone::Impl::ClearTimeZoneMapTestOnly() { std::lock_guard lock(TimeZoneMutex()); if (time_zone_map != nullptr) { // Existing time_zone::Impl* entries are in the wild, so we can't delete // them. Instead, we move them to a private container, where they are // logically unreachable but not "leaked". Future requests will result // in reloading the data. static auto* cleared = new std::deque; for (const auto& element : *time_zone_map) { cleared->push_back(element.second); } time_zone_map->clear(); } } time_zone::Impl::Impl(const std::string& name) : name_(name) {} const time_zone::Impl* time_zone::Impl::UTCImpl() { static Impl* utc_impl = [] { Impl* impl = new Impl("UTC"); impl->zone_ = TimeZoneIf::Load(impl->name_); // never fails return impl; }(); return utc_impl; } } // namespace cctz } // namespace time_internal } // namespace absl