icu4c/source/common/wintz.cpp - external/github.com/unicode-org/icu - Git at Google

 // © 2016 and later: Unicode, Inc. and others.
 // License & terms of use: http://www.unicode.org/copyright.html
 /*
 ********************************************************************************
 *   Copyright (C) 2005-2015, International Business Machines
 *   Corporation and others.  All Rights Reserved.
 ********************************************************************************
 *
 * File WINTZ.CPP
 *
 ********************************************************************************
 */

 #include "unicode/utypes.h"

 #if U_PLATFORM_USES_ONLY_WIN32_API

 #include "wintz.h"
 #include "charstr.h"
 #include "cmemory.h"
 #include "cstring.h"

 #include "unicode/ures.h"
 #include "unicode/unistr.h"
 #include "uresimp.h"

 #ifndef WIN32_LEAN_AND_MEAN
 #   define WIN32_LEAN_AND_MEAN
 #endif
 #   define VC_EXTRALEAN
 #   define NOUSER
 #   define NOSERVICE
 #   define NOIME
 #   define NOMCX
 #include <windows.h>

 U_NAMESPACE_BEGIN

 // Note these constants and the struct are only used when dealing with the fallback path for RDP sesssions.

 // This is the location of the time zones in the registry on Vista+ systems.
 // See: https://docs.microsoft.com/windows/win32/api/timezoneapi/ns-timezoneapi-dynamic_time_zone_information
 #define WINDOWS_TIMEZONES_REG_KEY_PATH L"SOFTWARE\\Microsoft\\Windows NT\\CurrentVersion\\Time Zones"

 // Max length for a registry key is 255. +1 for null.
 // See: https://docs.microsoft.com/windows/win32/sysinfo/registry-element-size-limits
 #define WINDOWS_MAX_REG_KEY_LENGTH 256

 #if U_PLATFORM_HAS_WINUWP_API == 0

 // This is the layout of the TZI binary value in the registry.
 // See: https://docs.microsoft.com/windows/win32/api/timezoneapi/ns-timezoneapi-time_zone_information
 typedef struct _REG_TZI_FORMAT {
     LONG Bias;
     LONG StandardBias;
     LONG DaylightBias;
     SYSTEMTIME StandardDate;
     SYSTEMTIME DaylightDate;
 } REG_TZI_FORMAT;

 #endif // U_PLATFORM_HAS_WINUWP_API

 /**
 * This is main Windows time zone detection function.
 *
 * It returns the Windows time zone converted to an ICU time zone as a heap-allocated buffer, or nullptr upon failure.
 *
 * We use the Win32 API GetDynamicTimeZoneInformation (which is available since Vista) to get the current time zone info,
 * as this API returns a non-localized time zone name which can be then mapped to an ICU time zone.
 *
 * However, in some RDP/terminal services situations, this struct isn't always fully complete, and the TimeZoneKeyName
 * field of the struct might be NULL. This can happen with some 3rd party RDP clients, and also when using older versions
 * of the RDP protocol, which don't send the newer TimeZoneKeyNamei information and only send the StandardName and DaylightName.
 *
 * Since these 3rd party clients and older RDP clients only send the pre-Vista time zone information to the server, this means that we
 * need to fallback on using the pre-Vista methods to determine the time zone. This unfortunately requires examining the registry directly
 * in order to try and determine the current time zone.
 *
 * Note that this can however still fail in some cases though if the client and server are using different languages, as the StandardName
 * that is sent by client is localized in the client's language. However, we must compare this to the names that are on the server, which
 * are localized in registry using the server's language. Despite that, this is the best we can do.
 *
 * Note: This fallback method won't work for the UWP version though, as we can't use the registry APIs in UWP.
 *
 * Once we have the current Windows time zone, then we can then map it to an ICU time zone ID (~ Olsen ID).
 */
 U_CAPI const char* U_EXPORT2
 uprv_detectWindowsTimeZone()
 {
     // We first try to obtain the time zone directly by using the TimeZoneKeyName field of the DYNAMIC_TIME_ZONE_INFORMATION struct.
     DYNAMIC_TIME_ZONE_INFORMATION dynamicTZI;
     uprv_memset(&dynamicTZI, 0, sizeof(dynamicTZI));
     SYSTEMTIME systemTimeAllZero;
     uprv_memset(&systemTimeAllZero, 0, sizeof(systemTimeAllZero));

     if (GetDynamicTimeZoneInformation(&dynamicTZI) == TIME_ZONE_ID_INVALID) {
         return nullptr;
     }

     // If the DST setting has been turned off in the Control Panel, then return "Etc/GMT<offset>".
     //
     // Note: This logic is based on how the Control Panel itself determines if DST is 'off' on Windows.
     // The code is somewhat convoluted; in a sort of pseudo-code it looks like this:
     //
     //   IF (GetDynamicTimeZoneInformation != TIME_ZONE_ID_INVALID) && (DynamicDaylightTimeDisabled != 0) &&
     //      (StandardDate == DaylightDate) &&
     //      (
     //       (TimeZoneKeyName != Empty && StandardDate == 0) ||
     //       (TimeZoneKeyName == Empty && StandardDate != 0)
     //      )
     //   THEN
     //     DST setting is "Disabled".
     //
     if (dynamicTZI.DynamicDaylightTimeDisabled != 0 &&
         uprv_memcmp(&dynamicTZI.StandardDate, &dynamicTZI.DaylightDate, sizeof(dynamicTZI.StandardDate)) == 0 &&
         ((dynamicTZI.TimeZoneKeyName[0] != L'\0' && uprv_memcmp(&dynamicTZI.StandardDate, &systemTimeAllZero, sizeof(systemTimeAllZero)) == 0) ||
          (dynamicTZI.TimeZoneKeyName[0] == L'\0' && uprv_memcmp(&dynamicTZI.StandardDate, &systemTimeAllZero, sizeof(systemTimeAllZero)) != 0)))
     {
         LONG utcOffsetMins = dynamicTZI.Bias;
         if (utcOffsetMins == 0) {
             return uprv_strdup("Etc/UTC");
         }

         // No way to support when DST is turned off and the offset in minutes is not a multiple of 60.
         if (utcOffsetMins % 60 == 0) {
             char gmtOffsetTz[11] = {}; // "Etc/GMT+dd" is 11-char long with a terminal null.
             // Important note on the sign convention for zones:
             //
             // From https://en.wikipedia.org/wiki/Tz_database#Area
             //   "In order to conform with the POSIX style, those zone names beginning with "Etc/GMT" have their sign reversed
             //   from the standard ISO 8601 convention. In the "Etc" area, zones west of GMT have a positive sign and those
             //   east have a negative sign in their name (e.g "Etc/GMT-14" is 14 hours ahead of GMT)."
             //
             // Regarding the POSIX style, from https://www.gnu.org/software/libc/manual/html_node/TZ-Variable.html
             //   "The offset specifies the time value you must add to the local time to get a Coordinated Universal Time value."
             //
             // However, the Bias value in DYNAMIC_TIME_ZONE_INFORMATION *already* follows the POSIX convention.
             //
             // From https://docs.microsoft.com/en-us/windows/win32/api/timezoneapi/ns-timezoneapi-dynamic_time_zone_information
             //   "The bias is the difference, in minutes, between Coordinated Universal Time (UTC) and
             //   local time. All translations between UTC and local time are based on the following formula:
             //      UTC = local time + bias"
             //
             // For example, a time zone that is 3 hours ahead of UTC (UTC+03:00) would have a Bias value of -180, and the
             // corresponding time zone ID would be "Etc/GMT-3". (So there is no need to negate utcOffsetMins below.)
             int ret = snprintf(gmtOffsetTz, UPRV_LENGTHOF(gmtOffsetTz), "Etc/GMT%+ld", utcOffsetMins / 60);
             if (ret > 0 && ret < UPRV_LENGTHOF(gmtOffsetTz)) {
                 return uprv_strdup(gmtOffsetTz);
             }
         }
     }

     // If DST is NOT disabled, but the TimeZoneKeyName field of the struct is NULL, then we may be dealing with a
     // RDP/terminal services session where the 'Time Zone Redirection' feature is enabled. However, either the RDP
     // client sent the server incomplete info (some 3rd party RDP clients only send the StandardName and  DaylightName,
     // but do not send the important TimeZoneKeyName), or if the RDP server has not appropriately populated the struct correctly.
     //
     // In this case we unfortunately have no choice but to fallback to using the pre-Vista method of determining the
     // time zone, which requires examining the registry directly.
     //
     // Note that this can however still fail though if the client and server are using different languages, as the StandardName
     // that is sent by client is *localized* in the client's language. However, we must compare this to the names that are
     // on the server, which are *localized* in registry using the server's language.
     //
     // One other note is that this fallback method doesn't work for the UWP version, as we can't use the registry APIs.

     // windowsTimeZoneName will point at timezoneSubKeyName if we had to fallback to using the registry, and we found a match.
     WCHAR timezoneSubKeyName[WINDOWS_MAX_REG_KEY_LENGTH];
     WCHAR *windowsTimeZoneName = dynamicTZI.TimeZoneKeyName;

     if (dynamicTZI.TimeZoneKeyName[0] == 0) {

 // We can't use the registry APIs in the UWP version.
 #if U_PLATFORM_HAS_WINUWP_API == 1
         (void)timezoneSubKeyName; // suppress unused variable warnings.
         return nullptr;
 #else
         // Open the path to the time zones in the Windows registry.
         LONG ret;
         HKEY hKeyAllTimeZones = nullptr;
         ret = RegOpenKeyExW(HKEY_LOCAL_MACHINE, WINDOWS_TIMEZONES_REG_KEY_PATH, 0, KEY_READ,
                             reinterpret_cast<PHKEY>(&hKeyAllTimeZones));

         if (ret != ERROR_SUCCESS) {
             // If we can't open the key, then we can't do much, so fail.
             return nullptr;
         }

         // Read the number of subkeys under the time zone registry path.
         DWORD numTimeZoneSubKeys;
         ret = RegQueryInfoKeyW(hKeyAllTimeZones, nullptr, nullptr, nullptr, &numTimeZoneSubKeys,
                                nullptr, nullptr, nullptr, nullptr, nullptr, nullptr, nullptr);

         if (ret != ERROR_SUCCESS) {
             RegCloseKey(hKeyAllTimeZones);
             return nullptr;
         }

         // Examine each of the subkeys to try and find a match for the localized standard name ("Std").
         //
         // Note: The name of the time zone subkey itself is not localized, but the "Std" name is localized. This means
         // that we could fail to find a match if the RDP client and RDP server are using different languages, but unfortunately
         // there isn't much we can do about it.
         HKEY hKeyTimeZoneSubKey = nullptr;
         ULONG registryValueType;
         WCHAR registryStandardName[WINDOWS_MAX_REG_KEY_LENGTH];

         for (DWORD i = 0; i < numTimeZoneSubKeys; i++) {
             // Note: RegEnumKeyExW wants the size of the buffer in characters.
             DWORD size = UPRV_LENGTHOF(timezoneSubKeyName);
             ret = RegEnumKeyExW(hKeyAllTimeZones, i, timezoneSubKeyName, &size, nullptr, nullptr, nullptr, nullptr);

             if (ret != ERROR_SUCCESS) {
                 RegCloseKey(hKeyAllTimeZones);
                 return nullptr;
             }

             ret = RegOpenKeyExW(hKeyAllTimeZones, timezoneSubKeyName, 0, KEY_READ,
                                 reinterpret_cast<PHKEY>(&hKeyTimeZoneSubKey));

             if (ret != ERROR_SUCCESS) {
                 RegCloseKey(hKeyAllTimeZones);
                 return nullptr;
             }

             // Note: RegQueryValueExW wants the size of the buffer in bytes.
             size = sizeof(registryStandardName);
             ret = RegQueryValueExW(hKeyTimeZoneSubKey, L"Std", nullptr, &registryValueType,
                                    reinterpret_cast<LPBYTE>(registryStandardName), &size);

             if (ret != ERROR_SUCCESS || registryValueType != REG_SZ) {
                 RegCloseKey(hKeyTimeZoneSubKey);
                 RegCloseKey(hKeyAllTimeZones);
                 return nullptr;
             }

             // Note: wcscmp does an ordinal (byte) comparison.
             if (wcscmp(reinterpret_cast<WCHAR *>(registryStandardName), dynamicTZI.StandardName) == 0) {
                 // Since we are comparing the *localized* time zone name, it's possible that some languages might use
                 // the same string for more than one time zone. Thus we need to examine the TZI data in the registry to
                 // compare the GMT offset (the bias), and the DST transition dates, to ensure it's the same time zone
                 // as the currently reported one.
                 REG_TZI_FORMAT registryTziValue;
                 uprv_memset(&registryTziValue, 0, sizeof(registryTziValue));

                 // Note: RegQueryValueExW wants the size of the buffer in bytes.
                 DWORD timezoneTziValueSize = sizeof(registryTziValue);
                 ret = RegQueryValueExW(hKeyTimeZoneSubKey, L"TZI", nullptr, &registryValueType,
                                      reinterpret_cast<LPBYTE>(&registryTziValue), &timezoneTziValueSize);

                 if (ret == ERROR_SUCCESS) {
                     if ((dynamicTZI.Bias == registryTziValue.Bias) &&
                         (memcmp((const void *)&dynamicTZI.StandardDate, (const void *)&registryTziValue.StandardDate, sizeof(SYSTEMTIME)) == 0) &&
                         (memcmp((const void *)&dynamicTZI.DaylightDate, (const void *)&registryTziValue.DaylightDate, sizeof(SYSTEMTIME)) == 0))
                     {
                         // We found a matching time zone.
                         windowsTimeZoneName = timezoneSubKeyName;
                         break;
                     }
                 }
             }
             RegCloseKey(hKeyTimeZoneSubKey);
             hKeyTimeZoneSubKey = nullptr;
         }

         if (hKeyTimeZoneSubKey != nullptr) {
             RegCloseKey(hKeyTimeZoneSubKey);
         }
         if (hKeyAllTimeZones != nullptr) {
             RegCloseKey(hKeyAllTimeZones);
         }
 #endif // U_PLATFORM_HAS_WINUWP_API
     }

     CharString winTZ;
     UErrorCode status = U_ZERO_ERROR;
     winTZ.appendInvariantChars(UnicodeString(TRUE, windowsTimeZoneName, -1), status);

     // Map Windows Timezone name (non-localized) to ICU timezone ID (~ Olson timezone id).
     StackUResourceBundle winTZBundle;
     ures_openDirectFillIn(winTZBundle.getAlias(), nullptr, "windowsZones", &status);
     ures_getByKey(winTZBundle.getAlias(), "mapTimezones", winTZBundle.getAlias(), &status);
     ures_getByKey(winTZBundle.getAlias(), winTZ.data(), winTZBundle.getAlias(), &status);

     if (U_FAILURE(status)) {
         return nullptr;
     }

     // Note: Since the ISO 3166 country/region codes are all invariant ASCII chars, we can
     // directly downcast from wchar_t to do the conversion.
     // We could call the A version of the GetGeoInfo API, but that would be slightly slower than calling the W API,
     // as the A version of the API will end up calling MultiByteToWideChar anyways internally.
     wchar_t regionCodeW[3] = {};
     char regionCode[3] = {}; // 2 letter ISO 3166 country/region code made entirely of invariant chars.
     int geoId = GetUserGeoID(GEOCLASS_NATION);
     int regionCodeLen = GetGeoInfoW(geoId, GEO_ISO2, regionCodeW, UPRV_LENGTHOF(regionCodeW), 0);

     const UChar *icuTZ16 = nullptr;
     int32_t tzListLen = 0;

     if (regionCodeLen != 0) {
         for (int i = 0; i < UPRV_LENGTHOF(regionCodeW); i++) {
             regionCode[i] = static_cast<char>(regionCodeW[i]);
         }
         icuTZ16 = ures_getStringByKey(winTZBundle.getAlias(), regionCode, &tzListLen, &status);
     }
     if (regionCodeLen == 0 || U_FAILURE(status)) {
         // fallback to default "001" (world)
         status = U_ZERO_ERROR;
         icuTZ16 = ures_getStringByKey(winTZBundle.getAlias(), "001", &tzListLen, &status);
     }

     // Note: We want the first entry in the string returned by ures_getStringByKey.
     // However this string can be a space delimited list of timezones:
     //  Ex: "America/New_York America/Detroit America/Indiana/Petersburg ..."
     // We need to stop at the first space, so we pass tzLen (instead of tzListLen) to appendInvariantChars below.
     int32_t tzLen = 0;
     if (tzListLen > 0) {
         while (!(icuTZ16[tzLen] == u'\0' || icuTZ16[tzLen] == u' ')) {
             tzLen++;
         }
     }

     // Note: cloneData returns nullptr if the status is a failure, so this
     // will return nullptr if the above look-up fails.
     CharString icuTZStr;
     return icuTZStr.appendInvariantChars(icuTZ16, tzLen, status).cloneData(status);
 }

 U_NAMESPACE_END
 #endif /* U_PLATFORM_USES_ONLY_WIN32_API  */
	// © 2016 and later: Unicode, Inc. and others.
	// License & terms of use: http://www.unicode.org/copyright.html
	/*
	********************************************************************************
	* Copyright (C) 2005-2015, International Business Machines
	* Corporation and others. All Rights Reserved.
	********************************************************************************
	*
	* File WINTZ.CPP
	*
	********************************************************************************
	*/

	#include "unicode/utypes.h"

	#if U_PLATFORM_USES_ONLY_WIN32_API

	#include "wintz.h"
	#include "charstr.h"
	#include "cmemory.h"
	#include "cstring.h"

	#include "unicode/ures.h"
	#include "unicode/unistr.h"
	#include "uresimp.h"

	#ifndef WIN32_LEAN_AND_MEAN
	# define WIN32_LEAN_AND_MEAN
	#endif
	# define VC_EXTRALEAN
	# define NOUSER
	# define NOSERVICE
	# define NOIME
	# define NOMCX
	#include <windows.h>

	U_NAMESPACE_BEGIN

	// Note these constants and the struct are only used when dealing with the fallback path for RDP sesssions.

	// This is the location of the time zones in the registry on Vista+ systems.
	// See: https://docs.microsoft.com/windows/win32/api/timezoneapi/ns-timezoneapi-dynamic_time_zone_information
	#define WINDOWS_TIMEZONES_REG_KEY_PATH L"SOFTWARE\\Microsoft\\Windows NT\\CurrentVersion\\Time Zones"

	// Max length for a registry key is 255. +1 for null.
	// See: https://docs.microsoft.com/windows/win32/sysinfo/registry-element-size-limits
	#define WINDOWS_MAX_REG_KEY_LENGTH 256

	#if U_PLATFORM_HAS_WINUWP_API == 0

	// This is the layout of the TZI binary value in the registry.
	// See: https://docs.microsoft.com/windows/win32/api/timezoneapi/ns-timezoneapi-time_zone_information
	typedef struct _REG_TZI_FORMAT {
	LONG Bias;
	LONG StandardBias;
	LONG DaylightBias;
	SYSTEMTIME StandardDate;
	SYSTEMTIME DaylightDate;
	} REG_TZI_FORMAT;

	#endif // U_PLATFORM_HAS_WINUWP_API

	/**
	* This is main Windows time zone detection function.
	*
	* It returns the Windows time zone converted to an ICU time zone as a heap-allocated buffer, or nullptr upon failure.
	*
	* We use the Win32 API GetDynamicTimeZoneInformation (which is available since Vista) to get the current time zone info,
	* as this API returns a non-localized time zone name which can be then mapped to an ICU time zone.
	*
	* However, in some RDP/terminal services situations, this struct isn't always fully complete, and the TimeZoneKeyName
	* field of the struct might be NULL. This can happen with some 3rd party RDP clients, and also when using older versions
	* of the RDP protocol, which don't send the newer TimeZoneKeyNamei information and only send the StandardName and DaylightName.
	*
	* Since these 3rd party clients and older RDP clients only send the pre-Vista time zone information to the server, this means that we
	* need to fallback on using the pre-Vista methods to determine the time zone. This unfortunately requires examining the registry directly
	* in order to try and determine the current time zone.
	*
	* Note that this can however still fail in some cases though if the client and server are using different languages, as the StandardName
	* that is sent by client is localized in the client's language. However, we must compare this to the names that are on the server, which
	* are localized in registry using the server's language. Despite that, this is the best we can do.
	*
	* Note: This fallback method won't work for the UWP version though, as we can't use the registry APIs in UWP.
	*
	* Once we have the current Windows time zone, then we can then map it to an ICU time zone ID (~ Olsen ID).
	*/
	U_CAPI const char* U_EXPORT2
	uprv_detectWindowsTimeZone()
	{
	// We first try to obtain the time zone directly by using the TimeZoneKeyName field of the DYNAMIC_TIME_ZONE_INFORMATION struct.
	DYNAMIC_TIME_ZONE_INFORMATION dynamicTZI;
	uprv_memset(&dynamicTZI, 0, sizeof(dynamicTZI));
	SYSTEMTIME systemTimeAllZero;
	uprv_memset(&systemTimeAllZero, 0, sizeof(systemTimeAllZero));

	if (GetDynamicTimeZoneInformation(&dynamicTZI) == TIME_ZONE_ID_INVALID) {
	return nullptr;
	}

	// If the DST setting has been turned off in the Control Panel, then return "Etc/GMT<offset>".
	//
	// Note: This logic is based on how the Control Panel itself determines if DST is 'off' on Windows.
	// The code is somewhat convoluted; in a sort of pseudo-code it looks like this:
	//
	// IF (GetDynamicTimeZoneInformation != TIME_ZONE_ID_INVALID) && (DynamicDaylightTimeDisabled != 0) &&
	// (StandardDate == DaylightDate) &&
	// (
	// (TimeZoneKeyName != Empty && StandardDate == 0) \|\|
	// (TimeZoneKeyName == Empty && StandardDate != 0)
	// )
	// THEN
	// DST setting is "Disabled".
	//
	if (dynamicTZI.DynamicDaylightTimeDisabled != 0 &&
	uprv_memcmp(&dynamicTZI.StandardDate, &dynamicTZI.DaylightDate, sizeof(dynamicTZI.StandardDate)) == 0 &&
	((dynamicTZI.TimeZoneKeyName[0] != L'\0' && uprv_memcmp(&dynamicTZI.StandardDate, &systemTimeAllZero, sizeof(systemTimeAllZero)) == 0) \|\|
	(dynamicTZI.TimeZoneKeyName[0] == L'\0' && uprv_memcmp(&dynamicTZI.StandardDate, &systemTimeAllZero, sizeof(systemTimeAllZero)) != 0)))
	{
	LONG utcOffsetMins = dynamicTZI.Bias;
	if (utcOffsetMins == 0) {
	return uprv_strdup("Etc/UTC");
	}

	// No way to support when DST is turned off and the offset in minutes is not a multiple of 60.
	if (utcOffsetMins % 60 == 0) {
	char gmtOffsetTz[11] = {}; // "Etc/GMT+dd" is 11-char long with a terminal null.
	// Important note on the sign convention for zones:
	//
	// From https://en.wikipedia.org/wiki/Tz_database#Area
	// "In order to conform with the POSIX style, those zone names beginning with "Etc/GMT" have their sign reversed
	// from the standard ISO 8601 convention. In the "Etc" area, zones west of GMT have a positive sign and those
	// east have a negative sign in their name (e.g "Etc/GMT-14" is 14 hours ahead of GMT)."
	//
	// Regarding the POSIX style, from https://www.gnu.org/software/libc/manual/html_node/TZ-Variable.html
	// "The offset specifies the time value you must add to the local time to get a Coordinated Universal Time value."
	//
	// However, the Bias value in DYNAMIC_TIME_ZONE_INFORMATION already follows the POSIX convention.
	//
	// From https://docs.microsoft.com/en-us/windows/win32/api/timezoneapi/ns-timezoneapi-dynamic_time_zone_information
	// "The bias is the difference, in minutes, between Coordinated Universal Time (UTC) and
	// local time. All translations between UTC and local time are based on the following formula:
	// UTC = local time + bias"
	//
	// For example, a time zone that is 3 hours ahead of UTC (UTC+03:00) would have a Bias value of -180, and the
	// corresponding time zone ID would be "Etc/GMT-3". (So there is no need to negate utcOffsetMins below.)
	int ret = snprintf(gmtOffsetTz, UPRV_LENGTHOF(gmtOffsetTz), "Etc/GMT%+ld", utcOffsetMins / 60);
	if (ret > 0 && ret < UPRV_LENGTHOF(gmtOffsetTz)) {
	return uprv_strdup(gmtOffsetTz);
	}
	}
	}

	// If DST is NOT disabled, but the TimeZoneKeyName field of the struct is NULL, then we may be dealing with a
	// RDP/terminal services session where the 'Time Zone Redirection' feature is enabled. However, either the RDP
	// client sent the server incomplete info (some 3rd party RDP clients only send the StandardName and DaylightName,
	// but do not send the important TimeZoneKeyName), or if the RDP server has not appropriately populated the struct correctly.
	//
	// In this case we unfortunately have no choice but to fallback to using the pre-Vista method of determining the
	// time zone, which requires examining the registry directly.
	//
	// Note that this can however still fail though if the client and server are using different languages, as the StandardName
	// that is sent by client is localized in the client's language. However, we must compare this to the names that are
	// on the server, which are localized in registry using the server's language.
	//
	// One other note is that this fallback method doesn't work for the UWP version, as we can't use the registry APIs.

	// windowsTimeZoneName will point at timezoneSubKeyName if we had to fallback to using the registry, and we found a match.
	WCHAR timezoneSubKeyName[WINDOWS_MAX_REG_KEY_LENGTH];
	WCHAR *windowsTimeZoneName = dynamicTZI.TimeZoneKeyName;

	if (dynamicTZI.TimeZoneKeyName[0] == 0) {

	// We can't use the registry APIs in the UWP version.
	#if U_PLATFORM_HAS_WINUWP_API == 1
	(void)timezoneSubKeyName; // suppress unused variable warnings.
	return nullptr;
	#else
	// Open the path to the time zones in the Windows registry.
	LONG ret;
	HKEY hKeyAllTimeZones = nullptr;
	ret = RegOpenKeyExW(HKEY_LOCAL_MACHINE, WINDOWS_TIMEZONES_REG_KEY_PATH, 0, KEY_READ,
	reinterpret_cast<PHKEY>(&hKeyAllTimeZones));

	if (ret != ERROR_SUCCESS) {
	// If we can't open the key, then we can't do much, so fail.
	return nullptr;
	}

	// Read the number of subkeys under the time zone registry path.
	DWORD numTimeZoneSubKeys;
	ret = RegQueryInfoKeyW(hKeyAllTimeZones, nullptr, nullptr, nullptr, &numTimeZoneSubKeys,
	nullptr, nullptr, nullptr, nullptr, nullptr, nullptr, nullptr);

	if (ret != ERROR_SUCCESS) {
	RegCloseKey(hKeyAllTimeZones);
	return nullptr;
	}

	// Examine each of the subkeys to try and find a match for the localized standard name ("Std").
	//
	// Note: The name of the time zone subkey itself is not localized, but the "Std" name is localized. This means
	// that we could fail to find a match if the RDP client and RDP server are using different languages, but unfortunately
	// there isn't much we can do about it.
	HKEY hKeyTimeZoneSubKey = nullptr;
	ULONG registryValueType;
	WCHAR registryStandardName[WINDOWS_MAX_REG_KEY_LENGTH];

	for (DWORD i = 0; i < numTimeZoneSubKeys; i++) {
	// Note: RegEnumKeyExW wants the size of the buffer in characters.
	DWORD size = UPRV_LENGTHOF(timezoneSubKeyName);
	ret = RegEnumKeyExW(hKeyAllTimeZones, i, timezoneSubKeyName, &size, nullptr, nullptr, nullptr, nullptr);

	if (ret != ERROR_SUCCESS) {
	RegCloseKey(hKeyAllTimeZones);
	return nullptr;
	}

	ret = RegOpenKeyExW(hKeyAllTimeZones, timezoneSubKeyName, 0, KEY_READ,
	reinterpret_cast<PHKEY>(&hKeyTimeZoneSubKey));

	if (ret != ERROR_SUCCESS) {
	RegCloseKey(hKeyAllTimeZones);
	return nullptr;
	}

	// Note: RegQueryValueExW wants the size of the buffer in bytes.
	size = sizeof(registryStandardName);
	ret = RegQueryValueExW(hKeyTimeZoneSubKey, L"Std", nullptr, &registryValueType,
	reinterpret_cast<LPBYTE>(registryStandardName), &size);

	if (ret != ERROR_SUCCESS \|\| registryValueType != REG_SZ) {
	RegCloseKey(hKeyTimeZoneSubKey);
	RegCloseKey(hKeyAllTimeZones);
	return nullptr;
	}

	// Note: wcscmp does an ordinal (byte) comparison.
	if (wcscmp(reinterpret_cast<WCHAR *>(registryStandardName), dynamicTZI.StandardName) == 0) {
	// Since we are comparing the localized time zone name, it's possible that some languages might use
	// the same string for more than one time zone. Thus we need to examine the TZI data in the registry to
	// compare the GMT offset (the bias), and the DST transition dates, to ensure it's the same time zone
	// as the currently reported one.
	REG_TZI_FORMAT registryTziValue;
	uprv_memset(&registryTziValue, 0, sizeof(registryTziValue));

	// Note: RegQueryValueExW wants the size of the buffer in bytes.
	DWORD timezoneTziValueSize = sizeof(registryTziValue);
	ret = RegQueryValueExW(hKeyTimeZoneSubKey, L"TZI", nullptr, &registryValueType,
	reinterpret_cast<LPBYTE>(&registryTziValue), &timezoneTziValueSize);

	if (ret == ERROR_SUCCESS) {
	if ((dynamicTZI.Bias == registryTziValue.Bias) &&
	(memcmp((const void )&dynamicTZI.StandardDate, (const void )&registryTziValue.StandardDate, sizeof(SYSTEMTIME)) == 0) &&
	(memcmp((const void )&dynamicTZI.DaylightDate, (const void )&registryTziValue.DaylightDate, sizeof(SYSTEMTIME)) == 0))
	{
	// We found a matching time zone.
	windowsTimeZoneName = timezoneSubKeyName;
	break;
	}
	}
	}
	RegCloseKey(hKeyTimeZoneSubKey);
	hKeyTimeZoneSubKey = nullptr;
	}

	if (hKeyTimeZoneSubKey != nullptr) {
	RegCloseKey(hKeyTimeZoneSubKey);
	}
	if (hKeyAllTimeZones != nullptr) {
	RegCloseKey(hKeyAllTimeZones);
	}
	#endif // U_PLATFORM_HAS_WINUWP_API
	}

	CharString winTZ;
	UErrorCode status = U_ZERO_ERROR;
	winTZ.appendInvariantChars(UnicodeString(TRUE, windowsTimeZoneName, -1), status);

	// Map Windows Timezone name (non-localized) to ICU timezone ID (~ Olson timezone id).
	StackUResourceBundle winTZBundle;
	ures_openDirectFillIn(winTZBundle.getAlias(), nullptr, "windowsZones", &status);
	ures_getByKey(winTZBundle.getAlias(), "mapTimezones", winTZBundle.getAlias(), &status);
	ures_getByKey(winTZBundle.getAlias(), winTZ.data(), winTZBundle.getAlias(), &status);

	if (U_FAILURE(status)) {
	return nullptr;
	}

	// Note: Since the ISO 3166 country/region codes are all invariant ASCII chars, we can
	// directly downcast from wchar_t to do the conversion.
	// We could call the A version of the GetGeoInfo API, but that would be slightly slower than calling the W API,
	// as the A version of the API will end up calling MultiByteToWideChar anyways internally.
	wchar_t regionCodeW[3] = {};
	char regionCode[3] = {}; // 2 letter ISO 3166 country/region code made entirely of invariant chars.
	int geoId = GetUserGeoID(GEOCLASS_NATION);
	int regionCodeLen = GetGeoInfoW(geoId, GEO_ISO2, regionCodeW, UPRV_LENGTHOF(regionCodeW), 0);

	const UChar *icuTZ16 = nullptr;
	int32_t tzListLen = 0;

	if (regionCodeLen != 0) {
	for (int i = 0; i < UPRV_LENGTHOF(regionCodeW); i++) {
	regionCode[i] = static_cast<char>(regionCodeW[i]);
	}
	icuTZ16 = ures_getStringByKey(winTZBundle.getAlias(), regionCode, &tzListLen, &status);
	}
	if (regionCodeLen == 0 \|\| U_FAILURE(status)) {
	// fallback to default "001" (world)
	status = U_ZERO_ERROR;
	icuTZ16 = ures_getStringByKey(winTZBundle.getAlias(), "001", &tzListLen, &status);
	}

	// Note: We want the first entry in the string returned by ures_getStringByKey.
	// However this string can be a space delimited list of timezones:
	// Ex: "America/New_York America/Detroit America/Indiana/Petersburg ..."
	// We need to stop at the first space, so we pass tzLen (instead of tzListLen) to appendInvariantChars below.
	int32_t tzLen = 0;
	if (tzListLen > 0) {
	while (!(icuTZ16[tzLen] == u'\0' \|\| icuTZ16[tzLen] == u' ')) {
	tzLen++;
	}
	}

	// Note: cloneData returns nullptr if the status is a failure, so this
	// will return nullptr if the above look-up fails.
	CharString icuTZStr;
	return icuTZStr.appendInvariantChars(icuTZ16, tzLen, status).cloneData(status);
	}

	U_NAMESPACE_END
	#endif /* U_PLATFORM_USES_ONLY_WIN32_API */