/* -*- Mode: C++; tab-width: 8; indent-tabs-mode: nil; c-basic-offset: 4 -*- * vim: set ts=8 sts=4 et sw=4 tw=99: * This Source Code Form is subject to the terms of the Mozilla Public * License, v. 2.0. If a copy of the MPL was not distributed with this * file, You can obtain one at http://mozilla.org/MPL/2.0/. */ #ifndef vm_DateTime_h #define vm_DateTime_h #include "mozilla/Assertions.h" #include "mozilla/Atomics.h" #include "mozilla/Attributes.h" #include "mozilla/FloatingPoint.h" #include "mozilla/MathAlgorithms.h" #include #include "js/Conversions.h" #include "js/Date.h" #include "js/Initialization.h" #include "js/Value.h" namespace js { /* Constants defined by ES5 15.9.1.10. */ const double HoursPerDay = 24; const double MinutesPerHour = 60; const double SecondsPerMinute = 60; const double msPerSecond = 1000; const double msPerMinute = msPerSecond * SecondsPerMinute; const double msPerHour = msPerMinute * MinutesPerHour; /* ES5 15.9.1.2. */ const double msPerDay = msPerHour * HoursPerDay; /* * Additional quantities not mentioned in the spec. Be careful using these! * They aren't doubles (and aren't defined in terms of all the other constants * so that they can be used in constexpr scenarios; if you need constants that * trigger floating point semantics, you'll have to manually cast to get it. */ const unsigned SecondsPerHour = 60 * 60; const unsigned SecondsPerDay = SecondsPerHour * 24; const double StartOfTime = -8.64e15; const double EndOfTime = 8.64e15; /* * Stores date/time information, particularly concerning the current local * time zone, and implements a small cache for daylight saving time offset * computation. * * The basic idea is premised upon this fact: the DST offset never changes more * than once in any thirty-day period. If we know the offset at t_0 is o_0, * the offset at [t_1, t_2] is also o_0, where t_1 + 3_0 days == t_2, * t_1 <= t_0, and t0 <= t2. (In other words, t_0 is always somewhere within a * thirty-day range where the DST offset is constant: DST changes never occur * more than once in any thirty-day period.) Therefore, if we intelligently * retain knowledge of the offset for a range of dates (which may vary over * time), and if requests are usually for dates within that range, we can often * provide a response without repeated offset calculation. * * Our caching strategy is as follows: on the first request at date t_0 compute * the requested offset o_0. Save { start: t_0, end: t_0, offset: o_0 } as the * cache's state. Subsequent requests within that range are straightforwardly * handled. If a request for t_i is far outside the range (more than thirty * days), compute o_i = dstOffset(t_i) and save { start: t_i, end: t_i, * offset: t_i }. Otherwise attempt to *overextend* the range to either * [start - 30d, end] or [start, end + 30d] as appropriate to encompass * t_i. If the offset o_i30 is the same as the cached offset, extend the * range. Otherwise the over-guess crossed a DST change -- compute * o_i = dstOffset(t_i) and either extend the original range (if o_i == offset) * or start a new one beneath/above the current one with o_i30 as the offset. * * This cache strategy results in 0 to 2 DST offset computations. The naive * always-compute strategy is 1 computation, and since cache maintenance is a * handful of integer arithmetic instructions the speed difference between * always-1 and 1-with-cache is negligible. Caching loses if two computations * happen: when the date is within 30 days of the cached range and when that * 30-day range crosses a DST change. This is relatively uncommon. Further, * instances of such are often dominated by in-range hits, so caching is an * overall slight win. * * Why 30 days? For correctness the duration must be smaller than any possible * duration between DST changes. Past that, note that 1) a large duration * increases the likelihood of crossing a DST change while reducing the number * of cache misses, and 2) a small duration decreases the size of the cached * range while producing more misses. Using a month as the interval change is * a balance between these two that tries to optimize for the calendar month at * a time that a site might display. (One could imagine an adaptive duration * that accommodates near-DST-change dates better; we don't believe the * potential win from better caching offsets the loss from extra complexity.) */ class DateTimeInfo { static DateTimeInfo instance; // Date/time info is shared across all threads in DateTimeInfo::instance, // for consistency with ICU's handling of its default time zone. Thus we // need something to protect concurrent accesses. // // The spec implicitly assumes DST and time zone adjustment information // never change in the course of a function -- sometimes even across // reentrancy. So make critical sections as narrow as possible, and use a // bog-standard spinlock with busy-waiting in case of contention for // simplicity. class MOZ_RAII AcquireLock { static mozilla::Atomic spinLock; public: AcquireLock() { while (!spinLock.compareExchange(false, true)) continue; } ~AcquireLock() { MOZ_ASSERT(spinLock, "spinlock should have been acquired"); spinLock = false; } }; friend const char* JS::detail::InitWithFailureDiagnostic(bool); // Initialize global date/time tracking state. This operation occurs // during, and is restricted to, SpiderMonkey initialization. static void init(); public: /* * Get the DST offset in milliseconds at a UTC time. This is usually * either 0 or |msPerSecond * SecondsPerHour|, but at least one exotic time * zone (Lord Howe Island, Australia) has a fractional-hour offset, just to * keep things interesting. */ static int64_t getDSTOffsetMilliseconds(int64_t utcMilliseconds) { AcquireLock lock; return DateTimeInfo::instance.internalGetDSTOffsetMilliseconds(utcMilliseconds); } /* ES5 15.9.1.7. */ static double localTZA() { AcquireLock lock; return DateTimeInfo::instance.localTZA_; } private: // We don't want anyone accidentally calling *only* // DateTimeInfo::updateTimeZoneAdjustment() to respond to a system time // zone change (missing the necessary poking of ICU as well), so ensure // only JS::ResetTimeZone() can call this via access restrictions. friend void JS::ResetTimeZone(); static void updateTimeZoneAdjustment() { AcquireLock lock; DateTimeInfo::instance.internalUpdateTimeZoneAdjustment(); } /* * The current local time zone adjustment, cached because retrieving this * dynamically is Slow, and a certain venerable benchmark which shall not * be named depends on it being fast. * * SpiderMonkey occasionally and arbitrarily updates this value from the * system time zone to attempt to keep this reasonably up-to-date. If * temporary inaccuracy can't be tolerated, JSAPI clients may call * JS::ResetTimeZone to forcibly sync this with the system time zone. */ double localTZA_; /* * Compute the DST offset at the given UTC time in seconds from the epoch. * (getDSTOffsetMilliseconds attempts to return a cached value, but in case * of a cache miss it calls this method. The cache is represented through * the offset* and *{Start,End}Seconds fields below.) */ int64_t computeDSTOffsetMilliseconds(int64_t utcSeconds); int64_t offsetMilliseconds; int64_t rangeStartSeconds, rangeEndSeconds; // UTC-based int64_t oldOffsetMilliseconds; int64_t oldRangeStartSeconds, oldRangeEndSeconds; // UTC-based /* * Cached offset in seconds from the current UTC time to the current * local standard time (i.e. not including any offset due to DST). */ int32_t utcToLocalStandardOffsetSeconds; static const int64_t MaxUnixTimeT = 2145859200; /* time_t 12/31/2037 */ static const int64_t RangeExpansionAmount = 30 * SecondsPerDay; int64_t internalGetDSTOffsetMilliseconds(int64_t utcMilliseconds); void internalUpdateTimeZoneAdjustment(); void sanityCheck(); }; /** * ICU's default time zone, used for various date/time formatting operations * that include the local time in the representation, is allowed to go stale * for unfortunate performance reasons. Call this function when an up-to-date * default time zone is required, to resync ICU's default time zone with * reality. */ extern void ResyncICUDefaultTimeZone(); } /* namespace js */ #endif /* vm_DateTime_h */