scripts: added Time Zone Redirection table generator

This commit is contained in:
Marc-André Moreau 2012-02-16 01:48:10 -05:00
parent 67dbf71fc4
commit d33ecbdb9c

246
scripts/TimeZones.cs Executable file
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@ -0,0 +1,246 @@
/**
* FreeRDP: A Remote Desktop Protocol Client
* Time Zone Redirection Table Generator
*
* Copyright 2012 Marc-Andre Moreau <marcandre.moreau@gmail.com>
*
* 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<TimeZoneInfo> timeZones = TimeZoneInfo.GetSystemTimeZones();
stream.WriteLine();
stream.WriteLine("struct _SYTEM_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 _SYTEM_TIME_ENTRY SYTEM_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("\tchar Id[32];");
stream.WriteLine("\tuint32 Bias;");
stream.WriteLine("\tboolean SupportsDST;");
stream.WriteLine("\tchar DisplayName[32];");
stream.WriteLine("\tchar StandardName[32];");
stream.WriteLine("\tchar DaylightName[32];");
stream.WriteLine("\tTIME_ZONE_RULE* 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 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}, {1}, {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)
{
TIME_ZONE_ENTRY tz;
TimeSpan offset = timeZone.BaseUtcOffset;
rules = timeZone.GetAdjustmentRules();
tz.Id = timeZone.Id;
if (offset.Hours >= 0)
tz.Bias = (UInt32)((offset.Hours * 60) + offset.Minutes);
else
tz.Bias = (UInt32)(((-1 * offset.Hours) * 60) + offset.Minutes + 720);
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 = "(TIME_ZONE_RULE_ENTRY*) NULL";
}
else
{
tz.RuleTableCount = (UInt32)rules.Length;
tz.RuleTable = "(TIME_ZONE_RULE_ENTRY*) &TimeZoneRuleTable_" + index;
}
stream.WriteLine("\t{");
stream.WriteLine("\t\t\"{0}\", {1}, {2}, \"{0}\",",
tz.Id, tz.Bias, tz.SupportsDST ? "true" : "false", tz.DisplayName);
stream.WriteLine("\t\t\"{0}\", \"{0}\"", 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();
}
}
}