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4b715680d2
Time Precision Reduction in the JS Engine was handled by a small bit of duplicated logic. With Time Jittering, and general improvements to the logic due to float fuzziness, we want to unify the logic for the JS Engine and the browser into one location. This patch does that. Note that this will leave the JS Shell without a time jittering implementation. It currently has a time clamping implementation - but I'm not actually sure if the shell is doing anything with it, because it's probably not calling SetTimeResolutionUsec to set it up. In Bug 1440539 we will add a jitter implementation for the shell. (And probably turn time rounding and jittering on for it too.) MozReview-Commit-ID: 2BTIMzE8MjW --HG-- extra : rebase_source : db5cd6a219e1b89988f142fc22994bf816507889
193 lines
7.5 KiB
C++
193 lines
7.5 KiB
C++
/* -*- Mode: C++; tab-width: 8; indent-tabs-mode: nil; c-basic-offset: 4 -*- */
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/* This Source Code Form is subject to the terms of the Mozilla Public
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* License, v. 2.0. If a copy of the MPL was not distributed with this
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* file, You can obtain one at http://mozilla.org/MPL/2.0/. */
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/* JavaScript date/time computation and creation functions. */
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#ifndef js_Date_h
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#define js_Date_h
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/*
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* Dates in JavaScript are defined by IEEE-754 double precision numbers from
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* the set:
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*
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* { t ∈ ℕ : -8.64e15 ≤ t ≤ +8.64e15 } ∪ { NaN }
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*
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* The single NaN value represents any invalid-date value. All other values
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* represent idealized durations in milliseconds since the UTC epoch. (Leap
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* seconds are ignored; leap days are not.) +0 is the only zero in this set.
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* The limit represented by 8.64e15 milliseconds is 100 million days either
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* side of 00:00 January 1, 1970 UTC.
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*
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* Dates in the above set are represented by the |ClippedTime| class. The
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* double type is a superset of the above set, so it *may* (but need not)
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* represent a date. Use ECMAScript's |TimeClip| method to produce a date from
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* a double.
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*
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* Date *objects* are simply wrappers around |TimeClip|'d numbers, with a bunch
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* of accessor methods to the various aspects of the represented date.
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*/
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#include "mozilla/FloatingPoint.h"
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#include "mozilla/MathAlgorithms.h"
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#include "js/Conversions.h"
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#include "js/Value.h"
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namespace JS {
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/**
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* Re-query the system to determine the current time zone adjustment from UTC,
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* including any component due to DST. If the time zone has changed, this will
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* cause all Date object non-UTC methods and formatting functions to produce
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* appropriately adjusted results.
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*
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* Left to its own devices, SpiderMonkey itself may occasionally call this
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* method to attempt to keep up with system time changes. However, no
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* particular frequency of checking is guaranteed. Embedders unable to accept
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* occasional inaccuracies should call this method in response to system time
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* changes, or immediately before operations requiring instantaneous
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* correctness, to guarantee correct behavior.
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*/
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extern JS_PUBLIC_API(void)
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ResetTimeZone();
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class ClippedTime;
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inline ClippedTime TimeClip(double time);
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/*
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* |ClippedTime| represents the limited subset of dates/times described above.
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*
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* An invalid date/time may be created through the |ClippedTime::invalid|
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* method. Otherwise, a |ClippedTime| may be created using the |TimeClip|
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* method.
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*
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* In typical use, the user might wish to manipulate a timestamp. The user
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* performs a series of operations on it, but the final value might not be a
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* date as defined above -- it could have overflowed, acquired a fractional
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* component, &c. So as a *final* step, the user passes that value through
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* |TimeClip| to produce a number restricted to JavaScript's date range.
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*
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* APIs that accept a JavaScript date value thus accept a |ClippedTime|, not a
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* double. This ensures that date/time APIs will only ever receive acceptable
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* JavaScript dates. This also forces users to perform any desired clipping,
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* as only the user knows what behavior is desired when clipping occurs.
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*/
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class ClippedTime
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{
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double t;
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explicit ClippedTime(double time) : t(time) {}
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friend ClippedTime TimeClip(double time);
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public:
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// Create an invalid date.
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ClippedTime() : t(mozilla::UnspecifiedNaN<double>()) {}
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// Create an invalid date/time, more explicitly; prefer this to the default
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// constructor.
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static ClippedTime invalid() { return ClippedTime(); }
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double toDouble() const { return t; }
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bool isValid() const { return !mozilla::IsNaN(t); }
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};
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// ES6 20.3.1.15.
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//
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// Clip a double to JavaScript's date range (or to an invalid date) using the
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// ECMAScript TimeClip algorithm.
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inline ClippedTime
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TimeClip(double time)
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{
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// Steps 1-2.
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const double MaxTimeMagnitude = 8.64e15;
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if (!mozilla::IsFinite(time) || mozilla::Abs(time) > MaxTimeMagnitude)
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return ClippedTime(mozilla::UnspecifiedNaN<double>());
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// Step 3.
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return ClippedTime(ToInteger(time) + (+0.0));
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}
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// Produce a double Value from the given time. Because times may be NaN,
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// prefer using this to manual canonicalization.
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inline Value
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TimeValue(ClippedTime time)
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{
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return DoubleValue(JS::CanonicalizeNaN(time.toDouble()));
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}
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// Create a new Date object whose [[DateValue]] internal slot contains the
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// clipped |time|. (Users who must represent times outside that range must use
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// another representation.)
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extern JS_PUBLIC_API(JSObject*)
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NewDateObject(JSContext* cx, ClippedTime time);
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// Year is a year, month is 0-11, day is 1-based. The return value is a number
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// of milliseconds since the epoch.
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//
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// Consistent with the MakeDate algorithm defined in ECMAScript, this value is
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// *not* clipped! Use JS::TimeClip if you need a clipped date.
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JS_PUBLIC_API(double)
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MakeDate(double year, unsigned month, unsigned day);
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// Year is a year, month is 0-11, day is 1-based, and time is in milliseconds.
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// The return value is a number of milliseconds since the epoch.
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//
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// Consistent with the MakeDate algorithm defined in ECMAScript, this value is
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// *not* clipped! Use JS::TimeClip if you need a clipped date.
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JS_PUBLIC_API(double)
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MakeDate(double year, unsigned month, unsigned day, double time);
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// Takes an integer number of milliseconds since the epoch and returns the
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// year. Can return NaN, and will do so if NaN is passed in.
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JS_PUBLIC_API(double)
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YearFromTime(double time);
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// Takes an integer number of milliseconds since the epoch and returns the
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// month (0-11). Can return NaN, and will do so if NaN is passed in.
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JS_PUBLIC_API(double)
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MonthFromTime(double time);
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// Takes an integer number of milliseconds since the epoch and returns the
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// day (1-based). Can return NaN, and will do so if NaN is passed in.
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JS_PUBLIC_API(double)
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DayFromTime(double time);
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// Takes an integer year and returns the number of days from epoch to the given
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// year.
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// NOTE: The calculation performed by this function is literally that given in
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// the ECMAScript specification. Nonfinite years, years containing fractional
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// components, and years outside ECMAScript's date range are not handled with
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// any particular intelligence. Garbage in, garbage out.
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JS_PUBLIC_API(double)
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DayFromYear(double year);
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// Takes an integer number of milliseconds since the epoch and an integer year,
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// returns the number of days in that year. If |time| is nonfinite, returns NaN.
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// Otherwise |time| *must* correspond to a time within the valid year |year|.
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// This should usually be ensured by computing |year| as |JS::DayFromYear(time)|.
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JS_PUBLIC_API(double)
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DayWithinYear(double time, double year);
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// The callback will be a wrapper function that accepts a single double (the time
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// to clamp and jitter.) Inside the JS Engine, other parameters that may be needed
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// are all constant, so they are handled inside the wrapper function
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using ReduceMicrosecondTimePrecisionCallback = double(*)(double);
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// Set a callback into the toolkit/components/resistfingerprinting function that
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// will centralize time resolution and jitter into one place.
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JS_PUBLIC_API(void)
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SetReduceMicrosecondTimePrecisionCallback(ReduceMicrosecondTimePrecisionCallback callback);
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// Sets the time resolution for fingerprinting protection, and whether jitter
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// should occur. If resolution is set to zero, then no rounding or jitter will
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// occur. This is used if the callback above is not specified.
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JS_PUBLIC_API(void)
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SetTimeResolutionUsec(uint32_t resolution, bool jitter);
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} // namespace JS
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#endif /* js_Date_h */
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