xref: /freebsd/contrib/llvm-project/libcxx/src/experimental/tzdb.cpp (revision 0fca6ea1d4eea4c934cfff25ac9ee8ad6fe95583)
1 //===----------------------------------------------------------------------===//
2 //
3 // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
4 // See https://llvm.org/LICENSE.txt for license information.
5 // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
6 //
7 //===----------------------------------------------------------------------===//
8 
9 // For information see https://libcxx.llvm.org/DesignDocs/TimeZone.html
10 
11 #include <algorithm>
12 #include <chrono>
13 #include <filesystem>
14 #include <fstream>
15 #include <stdexcept>
16 #include <string>
17 
18 #include "include/tzdb/time_zone_private.h"
19 #include "include/tzdb/types_private.h"
20 #include "include/tzdb/tzdb_list_private.h"
21 #include "include/tzdb/tzdb_private.h"
22 
23 // Contains a parser for the IANA time zone data files.
24 //
25 // These files can be found at https://data.iana.org/time-zones/ and are in the
26 // public domain. Information regarding the input can be found at
27 // https://data.iana.org/time-zones/tz-how-to.html and
28 // https://man7.org/linux/man-pages/man8/zic.8.html.
29 //
30 // As indicated at https://howardhinnant.github.io/date/tz.html#Installation
31 // For Windows another file seems to be required
32 // https://raw.githubusercontent.com/unicode-org/cldr/master/common/supplemental/windowsZones.xml
33 // This file seems to contain the mapping of Windows time zone name to IANA
34 // time zone names.
35 //
36 // However this article mentions another way to do the mapping on Windows
37 // https://devblogs.microsoft.com/oldnewthing/20210527-00/?p=105255
38 // This requires Windows 10 Version 1903, which was released in May of 2019
39 // and considered end of life in December 2020
40 // https://learn.microsoft.com/en-us/lifecycle/announcements/windows-10-1903-end-of-servicing
41 //
42 // TODO TZDB Implement the Windows mapping in tzdb::current_zone
43 
44 _LIBCPP_BEGIN_NAMESPACE_STD
45 
46 namespace chrono {
47 
48 // This function is weak so it can be overriden in the tests. The
49 // declaration is in the test header test/support/test_tzdb.h
__libcpp_tzdb_directory()50 _LIBCPP_WEAK string_view __libcpp_tzdb_directory() {
51 #if defined(__linux__)
52   return "/usr/share/zoneinfo/";
53 #else
54 #  error "unknown path to the IANA Time Zone Database"
55 #endif
56 }
57 
58 //===----------------------------------------------------------------------===//
59 //                           Details
60 //===----------------------------------------------------------------------===//
61 
__is_whitespace(int __c)62 [[nodiscard]] static bool __is_whitespace(int __c) { return __c == ' ' || __c == '\t'; }
63 
__skip_optional_whitespace(istream & __input)64 static void __skip_optional_whitespace(istream& __input) {
65   while (chrono::__is_whitespace(__input.peek()))
66     __input.get();
67 }
68 
__skip_mandatory_whitespace(istream & __input)69 static void __skip_mandatory_whitespace(istream& __input) {
70   if (!chrono::__is_whitespace(__input.get()))
71     std::__throw_runtime_error("corrupt tzdb: expected whitespace");
72 
73   chrono::__skip_optional_whitespace(__input);
74 }
75 
__is_eol(int __c)76 [[nodiscard]] static bool __is_eol(int __c) { return __c == '\n' || __c == std::char_traits<char>::eof(); }
77 
__skip_line(istream & __input)78 static void __skip_line(istream& __input) {
79   while (!chrono::__is_eol(__input.peek())) {
80     __input.get();
81   }
82   __input.get();
83 }
84 
__skip(istream & __input,char __suffix)85 static void __skip(istream& __input, char __suffix) {
86   if (std::tolower(__input.peek()) == __suffix)
87     __input.get();
88 }
89 
__skip(istream & __input,string_view __suffix)90 static void __skip(istream& __input, string_view __suffix) {
91   for (auto __c : __suffix)
92     if (std::tolower(__input.peek()) == __c)
93       __input.get();
94 }
95 
__matches(istream & __input,char __expected)96 static void __matches(istream& __input, char __expected) {
97   if (std::tolower(__input.get()) != __expected)
98     std::__throw_runtime_error((string("corrupt tzdb: expected character '") + __expected + '\'').c_str());
99 }
100 
__matches(istream & __input,string_view __expected)101 static void __matches(istream& __input, string_view __expected) {
102   for (auto __c : __expected)
103     if (std::tolower(__input.get()) != __c)
104       std::__throw_runtime_error((string("corrupt tzdb: expected string '") + string(__expected) + '\'').c_str());
105 }
106 
__parse_string(istream & __input)107 [[nodiscard]] static string __parse_string(istream& __input) {
108   string __result;
109   while (true) {
110     int __c = __input.get();
111     switch (__c) {
112     case ' ':
113     case '\t':
114     case '\n':
115       __input.unget();
116       [[fallthrough]];
117     case istream::traits_type::eof():
118       if (__result.empty())
119         std::__throw_runtime_error("corrupt tzdb: expected a string");
120 
121       return __result;
122 
123     default:
124       __result.push_back(__c);
125     }
126   }
127 }
128 
__parse_integral(istream & __input,bool __leading_zero_allowed)129 [[nodiscard]] static int64_t __parse_integral(istream& __input, bool __leading_zero_allowed) {
130   int64_t __result = __input.get();
131   if (__leading_zero_allowed) {
132     if (__result < '0' || __result > '9')
133       std::__throw_runtime_error("corrupt tzdb: expected a digit");
134   } else {
135     if (__result < '1' || __result > '9')
136       std::__throw_runtime_error("corrupt tzdb: expected a non-zero digit");
137   }
138   __result -= '0';
139   while (true) {
140     if (__input.peek() < '0' || __input.peek() > '9')
141       return __result;
142 
143     // In order to avoid possible overflows we limit the accepted range.
144     // Most values parsed are expected to be very small:
145     // - 8784 hours in a year
146     // - 31 days in a month
147     // - year no real maximum, these values are expected to be less than
148     //   the range of the year type.
149     //
150     // However the leapseconds use a seconds after epoch value. Using an
151     // int would run into an overflow in 2038. By using a 64-bit value
152     // the range is large enough for the bilions of years. Limiting that
153     // range slightly to make the code easier is not an issue.
154     if (__result > (std::numeric_limits<int64_t>::max() / 16))
155       std::__throw_runtime_error("corrupt tzdb: integral too large");
156 
157     __result *= 10;
158     __result += __input.get() - '0';
159   }
160 }
161 
162 //===----------------------------------------------------------------------===//
163 //                          Calendar
164 //===----------------------------------------------------------------------===//
165 
__parse_day(istream & __input)166 [[nodiscard]] static day __parse_day(istream& __input) {
167   unsigned __result = chrono::__parse_integral(__input, false);
168   if (__result > 31)
169     std::__throw_runtime_error("corrupt tzdb day: value too large");
170   return day{__result};
171 }
172 
__parse_weekday(istream & __input)173 [[nodiscard]] static weekday __parse_weekday(istream& __input) {
174   // TZDB allows the shortest unique name.
175   switch (std::tolower(__input.get())) {
176   case 'f':
177     chrono::__skip(__input, "riday");
178     return Friday;
179 
180   case 'm':
181     chrono::__skip(__input, "onday");
182     return Monday;
183 
184   case 's':
185     switch (std::tolower(__input.get())) {
186     case 'a':
187       chrono::__skip(__input, "turday");
188       return Saturday;
189 
190     case 'u':
191       chrono::__skip(__input, "nday");
192       return Sunday;
193     }
194     break;
195 
196   case 't':
197     switch (std::tolower(__input.get())) {
198     case 'h':
199       chrono::__skip(__input, "ursday");
200       return Thursday;
201 
202     case 'u':
203       chrono::__skip(__input, "esday");
204       return Tuesday;
205     }
206     break;
207   case 'w':
208     chrono::__skip(__input, "ednesday");
209     return Wednesday;
210   }
211 
212   std::__throw_runtime_error("corrupt tzdb weekday: invalid name");
213 }
214 
__parse_month(istream & __input)215 [[nodiscard]] static month __parse_month(istream& __input) {
216   // TZDB allows the shortest unique name.
217   switch (std::tolower(__input.get())) {
218   case 'a':
219     switch (std::tolower(__input.get())) {
220     case 'p':
221       chrono::__skip(__input, "ril");
222       return April;
223 
224     case 'u':
225       chrono::__skip(__input, "gust");
226       return August;
227     }
228     break;
229 
230   case 'd':
231     chrono::__skip(__input, "ecember");
232     return December;
233 
234   case 'f':
235     chrono::__skip(__input, "ebruary");
236     return February;
237 
238   case 'j':
239     switch (std::tolower(__input.get())) {
240     case 'a':
241       chrono::__skip(__input, "nuary");
242       return January;
243 
244     case 'u':
245       switch (std::tolower(__input.get())) {
246       case 'n':
247         chrono::__skip(__input, 'e');
248         return June;
249 
250       case 'l':
251         chrono::__skip(__input, 'y');
252         return July;
253       }
254     }
255     break;
256 
257   case 'm':
258     if (std::tolower(__input.get()) == 'a')
259       switch (std::tolower(__input.get())) {
260       case 'y':
261         return May;
262 
263       case 'r':
264         chrono::__skip(__input, "ch");
265         return March;
266       }
267     break;
268 
269   case 'n':
270     chrono::__skip(__input, "ovember");
271     return November;
272 
273   case 'o':
274     chrono::__skip(__input, "ctober");
275     return October;
276 
277   case 's':
278     chrono::__skip(__input, "eptember");
279     return September;
280   }
281   std::__throw_runtime_error("corrupt tzdb month: invalid name");
282 }
283 
__parse_year_value(istream & __input)284 [[nodiscard]] static year __parse_year_value(istream& __input) {
285   bool __negative = __input.peek() == '-';
286   if (__negative) [[unlikely]]
287     __input.get();
288 
289   int64_t __result = __parse_integral(__input, true);
290   if (__result > static_cast<int>(year::max())) {
291     if (__negative)
292       std::__throw_runtime_error("corrupt tzdb year: year is less than the minimum");
293 
294     std::__throw_runtime_error("corrupt tzdb year: year is greater than the maximum");
295   }
296 
297   return year{static_cast<int>(__negative ? -__result : __result)};
298 }
299 
__parse_year(istream & __input)300 [[nodiscard]] static year __parse_year(istream& __input) {
301   if (std::tolower(__input.peek()) != 'm') [[likely]]
302     return chrono::__parse_year_value(__input);
303 
304   __input.get();
305   switch (std::tolower(__input.peek())) {
306   case 'i':
307     __input.get();
308     chrono::__skip(__input, 'n');
309     [[fallthrough]];
310 
311   case ' ':
312     // The m is minimum, even when that is ambiguous.
313     return year::min();
314 
315   case 'a':
316     __input.get();
317     chrono::__skip(__input, 'x');
318     return year::max();
319   }
320 
321   std::__throw_runtime_error("corrupt tzdb year: expected 'min' or 'max'");
322 }
323 
324 //===----------------------------------------------------------------------===//
325 //                        TZDB fields
326 //===----------------------------------------------------------------------===//
327 
__parse_to(istream & __input,year __only)328 [[nodiscard]] static year __parse_to(istream& __input, year __only) {
329   if (std::tolower(__input.peek()) != 'o')
330     return chrono::__parse_year(__input);
331 
332   __input.get();
333   chrono::__skip(__input, "nly");
334   return __only;
335 }
336 
__parse_comparison(istream & __input)337 [[nodiscard]] static __tz::__constrained_weekday::__comparison_t __parse_comparison(istream& __input) {
338   switch (__input.get()) {
339   case '>':
340     chrono::__matches(__input, '=');
341     return __tz::__constrained_weekday::__ge;
342 
343   case '<':
344     chrono::__matches(__input, '=');
345     return __tz::__constrained_weekday::__le;
346   }
347   std::__throw_runtime_error("corrupt tzdb on: expected '>=' or '<='");
348 }
349 
__parse_on(istream & __input)350 [[nodiscard]] static __tz::__on __parse_on(istream& __input) {
351   if (std::isdigit(__input.peek()))
352     return chrono::__parse_day(__input);
353 
354   if (std::tolower(__input.peek()) == 'l') {
355     chrono::__matches(__input, "last");
356     return weekday_last(chrono::__parse_weekday(__input));
357   }
358 
359   return __tz::__constrained_weekday{
360       chrono::__parse_weekday(__input), chrono::__parse_comparison(__input), chrono::__parse_day(__input)};
361 }
362 
__parse_duration(istream & __input)363 [[nodiscard]] static seconds __parse_duration(istream& __input) {
364   seconds __result{0};
365   int __c         = __input.peek();
366   bool __negative = __c == '-';
367   if (__negative) {
368     __input.get();
369     // Negative is either a negative value or a single -.
370     // The latter means 0 and the parsing is complete.
371     if (!std::isdigit(__input.peek()))
372       return __result;
373   }
374 
375   __result += hours(__parse_integral(__input, true));
376   if (__input.peek() != ':')
377     return __negative ? -__result : __result;
378 
379   __input.get();
380   __result += minutes(__parse_integral(__input, true));
381   if (__input.peek() != ':')
382     return __negative ? -__result : __result;
383 
384   __input.get();
385   __result += seconds(__parse_integral(__input, true));
386   if (__input.peek() != '.')
387     return __negative ? -__result : __result;
388 
389   __input.get();
390   (void)__parse_integral(__input, true); // Truncate the digits.
391 
392   return __negative ? -__result : __result;
393 }
394 
__parse_clock(istream & __input)395 [[nodiscard]] static __tz::__clock __parse_clock(istream& __input) {
396   switch (__input.get()) { // case sensitive
397   case 'w':
398     return __tz::__clock::__local;
399   case 's':
400     return __tz::__clock::__standard;
401 
402   case 'u':
403   case 'g':
404   case 'z':
405     return __tz::__clock::__universal;
406   }
407 
408   __input.unget();
409   return __tz::__clock::__local;
410 }
411 
__parse_dst(istream & __input,seconds __offset)412 [[nodiscard]] static bool __parse_dst(istream& __input, seconds __offset) {
413   switch (__input.get()) { // case sensitive
414   case 's':
415     return false;
416 
417   case 'd':
418     return true;
419   }
420 
421   __input.unget();
422   return __offset != 0s;
423 }
424 
__parse_at(istream & __input)425 [[nodiscard]] static __tz::__at __parse_at(istream& __input) {
426   return {__parse_duration(__input), __parse_clock(__input)};
427 }
428 
__parse_save(istream & __input)429 [[nodiscard]] static __tz::__save __parse_save(istream& __input) {
430   seconds __time = chrono::__parse_duration(__input);
431   return {__time, chrono::__parse_dst(__input, __time)};
432 }
433 
__parse_letters(istream & __input)434 [[nodiscard]] static string __parse_letters(istream& __input) {
435   string __result = __parse_string(__input);
436   // Canonicalize "-" to "" since they are equivalent in the specification.
437   return __result != "-" ? __result : "";
438 }
439 
__parse_rules(istream & __input)440 [[nodiscard]] static __tz::__continuation::__rules_t __parse_rules(istream& __input) {
441   int __c = __input.peek();
442   // A single -  is not a SAVE but a special case.
443   if (__c == '-') {
444     __input.get();
445     if (chrono::__is_whitespace(__input.peek()))
446       return monostate{};
447     __input.unget();
448     return chrono::__parse_save(__input);
449   }
450 
451   if (std::isdigit(__c) || __c == '+')
452     return chrono::__parse_save(__input);
453 
454   return chrono::__parse_string(__input);
455 }
456 
__parse_continuation(__tz::__rules_storage_type & __rules,istream & __input)457 [[nodiscard]] static __tz::__continuation __parse_continuation(__tz::__rules_storage_type& __rules, istream& __input) {
458   __tz::__continuation __result;
459 
460   __result.__rule_database_ = std::addressof(__rules);
461 
462   // Note STDOFF is specified as
463   //   This field has the same format as the AT and SAVE fields of rule lines;
464   // These fields have different suffix letters, these letters seem
465   // not to be used so do not allow any of them.
466 
467   __result.__stdoff = chrono::__parse_duration(__input);
468   chrono::__skip_mandatory_whitespace(__input);
469   __result.__rules = chrono::__parse_rules(__input);
470   chrono::__skip_mandatory_whitespace(__input);
471   __result.__format = chrono::__parse_string(__input);
472   chrono::__skip_optional_whitespace(__input);
473 
474   if (chrono::__is_eol(__input.peek()))
475     return __result;
476   __result.__year = chrono::__parse_year(__input);
477   chrono::__skip_optional_whitespace(__input);
478 
479   if (chrono::__is_eol(__input.peek()))
480     return __result;
481   __result.__in = chrono::__parse_month(__input);
482   chrono::__skip_optional_whitespace(__input);
483 
484   if (chrono::__is_eol(__input.peek()))
485     return __result;
486   __result.__on = chrono::__parse_on(__input);
487   chrono::__skip_optional_whitespace(__input);
488 
489   if (chrono::__is_eol(__input.peek()))
490     return __result;
491   __result.__at = __parse_at(__input);
492 
493   return __result;
494 }
495 
496 //===----------------------------------------------------------------------===//
497 //                   Time Zone Database entries
498 //===----------------------------------------------------------------------===//
499 
__parse_version(istream & __input)500 static string __parse_version(istream& __input) {
501   // The first line in tzdata.zi contains
502   //    # version YYYYw
503   // The parser expects this pattern
504   // #\s*version\s*\(.*)
505   // This part is not documented.
506   chrono::__matches(__input, '#');
507   chrono::__skip_optional_whitespace(__input);
508   chrono::__matches(__input, "version");
509   chrono::__skip_mandatory_whitespace(__input);
510   return chrono::__parse_string(__input);
511 }
512 
513 [[nodiscard]]
__create_entry(__tz::__rules_storage_type & __rules,const string & __name)514 static __tz::__rule& __create_entry(__tz::__rules_storage_type& __rules, const string& __name) {
515   auto __result = [&]() -> __tz::__rule& {
516     auto& __rule = __rules.emplace_back(__name, vector<__tz::__rule>{});
517     return __rule.second.emplace_back();
518   };
519 
520   if (__rules.empty())
521     return __result();
522 
523   // Typically rules are in contiguous order in the database.
524   // But there are exceptions, some rules are interleaved.
525   if (__rules.back().first == __name)
526     return __rules.back().second.emplace_back();
527 
528   if (auto __it = ranges::find(__rules, __name, [](const auto& __r) { return __r.first; });
529       __it != ranges::end(__rules))
530     return __it->second.emplace_back();
531 
532   return __result();
533 }
534 
__parse_rule(tzdb & __tzdb,__tz::__rules_storage_type & __rules,istream & __input)535 static void __parse_rule(tzdb& __tzdb, __tz::__rules_storage_type& __rules, istream& __input) {
536   chrono::__skip_mandatory_whitespace(__input);
537   string __name = chrono::__parse_string(__input);
538 
539   __tz::__rule& __rule = __create_entry(__rules, __name);
540 
541   chrono::__skip_mandatory_whitespace(__input);
542   __rule.__from = chrono::__parse_year(__input);
543   chrono::__skip_mandatory_whitespace(__input);
544   __rule.__to = chrono::__parse_to(__input, __rule.__from);
545   chrono::__skip_mandatory_whitespace(__input);
546   chrono::__matches(__input, '-');
547   chrono::__skip_mandatory_whitespace(__input);
548   __rule.__in = chrono::__parse_month(__input);
549   chrono::__skip_mandatory_whitespace(__input);
550   __rule.__on = chrono::__parse_on(__input);
551   chrono::__skip_mandatory_whitespace(__input);
552   __rule.__at = __parse_at(__input);
553   chrono::__skip_mandatory_whitespace(__input);
554   __rule.__save = __parse_save(__input);
555   chrono::__skip_mandatory_whitespace(__input);
556   __rule.__letters = chrono::__parse_letters(__input);
557   chrono::__skip_line(__input);
558 }
559 
__parse_zone(tzdb & __tzdb,__tz::__rules_storage_type & __rules,istream & __input)560 static void __parse_zone(tzdb& __tzdb, __tz::__rules_storage_type& __rules, istream& __input) {
561   chrono::__skip_mandatory_whitespace(__input);
562   auto __p = std::make_unique<time_zone::__impl>(chrono::__parse_string(__input), __rules);
563   vector<__tz::__continuation>& __continuations = __p->__continuations();
564   chrono::__skip_mandatory_whitespace(__input);
565 
566   do {
567     // The first line must be valid, continuations are optional.
568     __continuations.emplace_back(__parse_continuation(__rules, __input));
569     chrono::__skip_line(__input);
570     chrono::__skip_optional_whitespace(__input);
571   } while (std::isdigit(__input.peek()) || __input.peek() == '-');
572 
573   __tzdb.zones.emplace_back(time_zone::__create(std::move(__p)));
574 }
575 
__parse_link(tzdb & __tzdb,istream & __input)576 static void __parse_link(tzdb& __tzdb, istream& __input) {
577   chrono::__skip_mandatory_whitespace(__input);
578   string __target = chrono::__parse_string(__input);
579   chrono::__skip_mandatory_whitespace(__input);
580   string __name = chrono::__parse_string(__input);
581   chrono::__skip_line(__input);
582 
583   __tzdb.links.emplace_back(std::__private_constructor_tag{}, std::move(__name), std::move(__target));
584 }
585 
__parse_tzdata(tzdb & __db,__tz::__rules_storage_type & __rules,istream & __input)586 static void __parse_tzdata(tzdb& __db, __tz::__rules_storage_type& __rules, istream& __input) {
587   while (true) {
588     int __c = std::tolower(__input.get());
589 
590     switch (__c) {
591     case istream::traits_type::eof():
592       return;
593 
594     case ' ':
595     case '\t':
596     case '\n':
597       break;
598 
599     case '#':
600       chrono::__skip_line(__input);
601       break;
602 
603     case 'r':
604       chrono::__skip(__input, "ule");
605       chrono::__parse_rule(__db, __rules, __input);
606       break;
607 
608     case 'z':
609       chrono::__skip(__input, "one");
610       chrono::__parse_zone(__db, __rules, __input);
611       break;
612 
613     case 'l':
614       chrono::__skip(__input, "ink");
615       chrono::__parse_link(__db, __input);
616       break;
617 
618     default:
619       std::__throw_runtime_error("corrupt tzdb: unexpected input");
620     }
621   }
622 }
623 
__parse_leap_seconds(vector<leap_second> & __leap_seconds,istream && __input)624 static void __parse_leap_seconds(vector<leap_second>& __leap_seconds, istream&& __input) {
625   // The file stores dates since 1 January 1900, 00:00:00, we want
626   // seconds since 1 January 1970.
627   constexpr auto __offset = sys_days{1970y / January / 1} - sys_days{1900y / January / 1};
628 
629   struct __entry {
630     sys_seconds __timestamp;
631     seconds __value;
632   };
633   vector<__entry> __entries;
634   [&] {
635     while (true) {
636       switch (__input.peek()) {
637       case istream::traits_type::eof():
638         return;
639 
640       case ' ':
641       case '\t':
642       case '\n':
643         __input.get();
644         continue;
645 
646       case '#':
647         chrono::__skip_line(__input);
648         continue;
649       }
650 
651       sys_seconds __date = sys_seconds{seconds{chrono::__parse_integral(__input, false)}} - __offset;
652       chrono::__skip_mandatory_whitespace(__input);
653       seconds __value{chrono::__parse_integral(__input, false)};
654       chrono::__skip_line(__input);
655 
656       __entries.emplace_back(__date, __value);
657     }
658   }();
659   // The Standard requires the leap seconds to be sorted. The file
660   // leap-seconds.list usually provides them in sorted order, but that is not
661   // guaranteed so we ensure it here.
662   ranges::sort(__entries, {}, &__entry::__timestamp);
663 
664   // The database should contain the number of seconds inserted by a leap
665   // second (1 or -1). So the difference between the two elements is stored.
666   // std::ranges::views::adjacent has not been implemented yet.
667   (void)ranges::adjacent_find(__entries, [&](const __entry& __first, const __entry& __second) {
668     __leap_seconds.emplace_back(
669         std::__private_constructor_tag{}, __second.__timestamp, __second.__value - __first.__value);
670     return false;
671   });
672 }
673 
__init_tzdb(tzdb & __tzdb,__tz::__rules_storage_type & __rules)674 void __init_tzdb(tzdb& __tzdb, __tz::__rules_storage_type& __rules) {
675   filesystem::path __root = chrono::__libcpp_tzdb_directory();
676   ifstream __tzdata{__root / "tzdata.zi"};
677 
678   __tzdb.version = chrono::__parse_version(__tzdata);
679   chrono::__parse_tzdata(__tzdb, __rules, __tzdata);
680   ranges::sort(__tzdb.zones);
681   ranges::sort(__tzdb.links);
682   ranges::sort(__rules, {}, [](const auto& p) { return p.first; });
683 
684   // There are two files with the leap second information
685   // - leapseconds as specified by zic
686   // - leap-seconds.list the source data
687   // The latter is much easier to parse, it seems Howard shares that
688   // opinion.
689   chrono::__parse_leap_seconds(__tzdb.leap_seconds, ifstream{__root / "leap-seconds.list"});
690 }
691 
692 #ifdef _WIN32
__current_zone_windows(const tzdb & tzdb)693 [[nodiscard]] static const time_zone* __current_zone_windows(const tzdb& tzdb) {
694   // TODO TZDB Implement this on Windows.
695   std::__throw_runtime_error("unknown time zone");
696 }
697 #else  // ifdef _WIN32
__current_zone_posix(const tzdb & tzdb)698 [[nodiscard]] static const time_zone* __current_zone_posix(const tzdb& tzdb) {
699   // On POSIX systems there are several ways to configure the time zone.
700   // In order of priority they are:
701   // - TZ environment variable
702   //   https://pubs.opengroup.org/onlinepubs/9699919799/basedefs/V1_chap08.html#tag_08
703   //   The documentation is unclear whether or not it's allowed to
704   //   change time zone information. For example the TZ string
705   //     MST7MDT
706   //   this is an entry in tzdata.zi. The value
707   //     MST
708   //   is also an entry. Is it allowed to use the following?
709   //     MST-3
710   //   Even when this is valid there is no time_zone record in the
711   //   database. Since the library would need to return a valid pointer,
712   //   this means the library needs to allocate and leak a pointer.
713   //
714   // - The time zone name is the target of the symlink /etc/localtime
715   //   relative to /usr/share/zoneinfo/
716 
717   // The algorithm is like this:
718   // - If the environment variable TZ is set and points to a valid
719   //   record use this value.
720   // - Else use the name based on the `/etc/localtime` symlink.
721 
722   if (const char* __tz = getenv("TZ"))
723     if (const time_zone* __result = tzdb.__locate_zone(__tz))
724       return __result;
725 
726   filesystem::path __path = "/etc/localtime";
727   if (!filesystem::exists(__path))
728     std::__throw_runtime_error("tzdb: the symlink '/etc/localtime' does not exist");
729 
730   if (!filesystem::is_symlink(__path))
731     std::__throw_runtime_error("tzdb: the path '/etc/localtime' is not a symlink");
732 
733   filesystem::path __tz = filesystem::read_symlink(__path);
734   // The path may be a relative path, in that case convert it to an absolute
735   // path based on the proper initial directory.
736   if (__tz.is_relative())
737     __tz = filesystem::canonical("/etc" / __tz);
738 
739   string __name = filesystem::relative(__tz, "/usr/share/zoneinfo/");
740   if (const time_zone* __result = tzdb.__locate_zone(__name))
741     return __result;
742 
743   std::__throw_runtime_error(("tzdb: the time zone '" + __name + "' is not found in the database").c_str());
744 }
745 #endif // ifdef _WIN32
746 
747 //===----------------------------------------------------------------------===//
748 //                           Public API
749 //===----------------------------------------------------------------------===//
750 
get_tzdb_list()751 _LIBCPP_AVAILABILITY_TZDB _LIBCPP_EXPORTED_FROM_ABI tzdb_list& get_tzdb_list() {
752   static tzdb_list __result{new tzdb_list::__impl()};
753   return __result;
754 }
755 
__current_zone() const756 [[nodiscard]] _LIBCPP_AVAILABILITY_TZDB _LIBCPP_EXPORTED_FROM_ABI const time_zone* tzdb::__current_zone() const {
757 #ifdef _WIN32
758   return chrono::__current_zone_windows(*this);
759 #else
760   return chrono::__current_zone_posix(*this);
761 #endif
762 }
763 
reload_tzdb()764 _LIBCPP_AVAILABILITY_TZDB _LIBCPP_EXPORTED_FROM_ABI const tzdb& reload_tzdb() {
765   if (chrono::remote_version() == chrono::get_tzdb().version)
766     return chrono::get_tzdb();
767 
768   return chrono::get_tzdb_list().__implementation().__load();
769 }
770 
remote_version()771 _LIBCPP_AVAILABILITY_TZDB _LIBCPP_EXPORTED_FROM_ABI string remote_version() {
772   filesystem::path __root = chrono::__libcpp_tzdb_directory();
773   ifstream __tzdata{__root / "tzdata.zi"};
774   return chrono::__parse_version(__tzdata);
775 }
776 
777 } // namespace chrono
778 
779 _LIBCPP_END_NAMESPACE_STD
780