/** * FreeRDP: A Remote Desktop Protocol Client * Time Zone Redirection Table Generator * * Copyright 2012 Marc-Andre Moreau * * 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 * * http://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. */ using System; using System.IO; using System.Globalization; using System.Collections.ObjectModel; namespace TimeZones { struct SYSTEM_TIME_ENTRY { public UInt16 wYear; public UInt16 wMonth; public UInt16 wDayOfWeek; public UInt16 wDay; public UInt16 wHour; public UInt16 wMinute; public UInt16 wSecond; public UInt16 wMilliseconds; }; struct TIME_ZONE_RULE_ENTRY { public long TicksStart; public long TicksEnd; public Int32 DaylightDelta; public SYSTEM_TIME_ENTRY StandardDate; public SYSTEM_TIME_ENTRY DaylightDate; }; struct TIME_ZONE_ENTRY { public string Id; public UInt32 Bias; public bool SupportsDST; public string DisplayName; public string StandardName; public string DaylightName; public string RuleTable; public UInt32 RuleTableCount; }; class TimeZones { static void Main(string[] args) { int i; UInt32 index; const string file = @"TimeZones.txt"; TimeZoneInfo.AdjustmentRule[] rules; StreamWriter stream = new StreamWriter(file, false); ReadOnlyCollection timeZones = TimeZoneInfo.GetSystemTimeZones(); stream.WriteLine(); stream.WriteLine("struct _SYSTEM_TIME_ENTRY"); stream.WriteLine("{"); stream.WriteLine("\tuint16 wYear;"); stream.WriteLine("\tuint16 wMonth;"); stream.WriteLine("\tuint16 wDayOfWeek;"); stream.WriteLine("\tuint16 wDay;"); stream.WriteLine("\tuint16 wHour;"); stream.WriteLine("\tuint16 wMinute;"); stream.WriteLine("\tuint16 wSecond;"); stream.WriteLine("\tuint16 wMilliseconds;"); stream.WriteLine("};"); stream.WriteLine("typedef struct _SYSTEM_TIME_ENTRY SYSTEM_TIME_ENTRY;"); stream.WriteLine(); stream.WriteLine("struct _TIME_ZONE_RULE_ENTRY"); stream.WriteLine("{"); stream.WriteLine("\tuint64 TicksStart;"); stream.WriteLine("\tuint64 TicksEnd;"); stream.WriteLine("\tsint32 DaylightDelta;"); stream.WriteLine("\tSYSTEM_TIME_ENTRY StandardDate;"); stream.WriteLine("\tSYSTEM_TIME_ENTRY DaylightDate;"); stream.WriteLine("};"); stream.WriteLine("typedef struct _TIME_ZONE_RULE_ENTRY TIME_ZONE_RULE_ENTRY;"); stream.WriteLine(); stream.WriteLine("struct _TIME_ZONE_ENTRY"); stream.WriteLine("{"); stream.WriteLine("\tconst char* Id;"); stream.WriteLine("\tuint32 Bias;"); stream.WriteLine("\tboolean SupportsDST;"); stream.WriteLine("\tconst char* DisplayName;"); stream.WriteLine("\tconst char* StandardName;"); stream.WriteLine("\tconst char* DaylightName;"); stream.WriteLine("\tTIME_ZONE_RULE_ENTRY* RuleTable;"); stream.WriteLine("\tuint32 RuleTableCount;"); stream.WriteLine("};"); stream.WriteLine("typedef struct _TIME_ZONE_ENTRY TIME_ZONE_ENTRY;"); stream.WriteLine(); index = 0; foreach (TimeZoneInfo timeZone in timeZones) { rules = timeZone.GetAdjustmentRules(); if ((!timeZone.SupportsDaylightSavingTime) || (rules.Length < 1)) { index++; continue; } stream.WriteLine("static const TIME_ZONE_RULE_ENTRY TimeZoneRuleTable_{0}[] =", index); stream.WriteLine("{"); i = 0; foreach (TimeZoneInfo.AdjustmentRule rule in rules) { DateTime time; TIME_ZONE_RULE_ENTRY tzr; TimeZoneInfo.TransitionTime transition; tzr.TicksStart = rule.DateEnd.ToUniversalTime().Ticks; tzr.TicksEnd = rule.DateStart.ToUniversalTime().Ticks; tzr.DaylightDelta = (Int32)rule.DaylightDelta.TotalMinutes; transition = rule.DaylightTransitionEnd; time = transition.TimeOfDay; tzr.StandardDate.wYear = (UInt16)0; tzr.StandardDate.wMonth = (UInt16)transition.Month; tzr.StandardDate.wDayOfWeek = (UInt16)transition.DayOfWeek; tzr.StandardDate.wDay = (UInt16)transition.Day; tzr.StandardDate.wHour = (UInt16)time.Hour; tzr.StandardDate.wMinute = (UInt16)time.Minute; tzr.StandardDate.wSecond = (UInt16)time.Second; tzr.StandardDate.wMilliseconds = (UInt16)time.Millisecond; transition = rule.DaylightTransitionStart; time = transition.TimeOfDay; tzr.DaylightDate.wYear = (UInt16)0; tzr.DaylightDate.wMonth = (UInt16)transition.Month; tzr.DaylightDate.wDayOfWeek = (UInt16)transition.DayOfWeek; tzr.DaylightDate.wDay = (UInt16)transition.Day; tzr.DaylightDate.wHour = (UInt16)time.Hour; tzr.DaylightDate.wMinute = (UInt16)time.Minute; tzr.DaylightDate.wSecond = (UInt16)time.Second; tzr.DaylightDate.wMilliseconds = (UInt16)time.Millisecond; stream.Write("\t{"); stream.Write(" {0}ULL, {1}ULL, {2},", tzr.TicksStart, tzr.TicksEnd, tzr.DaylightDelta); stream.Write(" { "); stream.Write("{0}, {1}, {2}, {3}, {4}, {5}", tzr.StandardDate.wYear, tzr.StandardDate.wMonth, tzr.StandardDate.wDayOfWeek, tzr.StandardDate.wDay, tzr.StandardDate.wHour, tzr.StandardDate.wMinute, tzr.StandardDate.wSecond, tzr.StandardDate.wMilliseconds); stream.Write(" }, "); stream.Write("{ "); stream.Write("{0}, {1}, {2}, {3}, {4}, {5}", tzr.DaylightDate.wYear, tzr.DaylightDate.wMonth, tzr.DaylightDate.wDayOfWeek, tzr.DaylightDate.wDay, tzr.DaylightDate.wHour, tzr.DaylightDate.wMinute, tzr.DaylightDate.wSecond, tzr.DaylightDate.wMilliseconds); stream.Write(" },"); if (++i < rules.Length) stream.WriteLine(" },"); else stream.WriteLine(" }"); } stream.WriteLine("};"); stream.WriteLine(); index++; } index = 0; stream.WriteLine("static const TIME_ZONE_ENTRY TimeZoneTable[] ="); stream.WriteLine("{"); foreach (TimeZoneInfo timeZone in timeZones) { Int32 sbias; TIME_ZONE_ENTRY tz; TimeSpan offset = timeZone.BaseUtcOffset; rules = timeZone.GetAdjustmentRules(); tz.Id = timeZone.Id; if (offset.Hours >= 0) { sbias = (offset.Hours * 60) + offset.Minutes; tz.Bias = (UInt32) sbias; } else { sbias = (offset.Hours * 60) + offset.Minutes; tz.Bias = (UInt32) (1440 + sbias); } tz.SupportsDST = timeZone.SupportsDaylightSavingTime; tz.DisplayName = timeZone.DisplayName; tz.StandardName = timeZone.StandardName; tz.DaylightName = timeZone.DaylightName; if ((!tz.SupportsDST) || (rules.Length < 1)) { tz.RuleTableCount = 0; tz.RuleTable = "NULL"; } else { tz.RuleTableCount = (UInt32)rules.Length; tz.RuleTable = "&TimeZoneRuleTable_" + index; tz.RuleTable = "(TIME_ZONE_RULE_ENTRY*) &TimeZoneRuleTable_" + index; } stream.WriteLine("\t{"); stream.WriteLine("\t\t\"{0}\", {1}, {2}, \"{3}\",", tz.Id, tz.Bias, tz.SupportsDST ? "true" : "false", tz.DisplayName); stream.WriteLine("\t\t\"{0}\", \"{1}\",", tz.StandardName, tz.DaylightName); stream.WriteLine("\t\t{0}, {1}", tz.RuleTable, tz.RuleTableCount); index++; if ((int)index < timeZones.Count) stream.WriteLine("\t},"); else stream.WriteLine("\t}"); } stream.WriteLine("};"); stream.WriteLine(); stream.Close(); } } }