/* ******************************************************************************** * Copyright (C) 2005-2011, International Business Machines * Corporation and others. All Rights Reserved. ******************************************************************************** * * File WINTZ.CPP * ******************************************************************************** */ #include "unicode/utypes.h" #if U_PLATFORM_HAS_WIN32_API #include "wintz.h" #include "cmemory.h" #include "cstring.h" #include "unicode/ustring.h" #include "unicode/ures.h" # define WIN32_LEAN_AND_MEAN # define VC_EXTRALEAN # define NOUSER # define NOSERVICE # define NOIME # define NOMCX #include #define MAX_LENGTH_ID 32 /* The layout of the Tzi value in the registry */ typedef struct { int32_t bias; int32_t standardBias; int32_t daylightBias; SYSTEMTIME standardDate; SYSTEMTIME daylightDate; } TZI; /** * Various registry keys and key fragments. */ static const char CURRENT_ZONE_REGKEY[] = "SYSTEM\\CurrentControlSet\\Control\\TimeZoneInformation\\"; static const char STANDARD_NAME_REGKEY[] = "StandardName"; static const char STANDARD_TIME_REGKEY[] = " Standard Time"; static const char TZI_REGKEY[] = "TZI"; static const char STD_REGKEY[] = "Std"; /** * HKLM subkeys used to probe for the flavor of Windows. Note that we * specifically check for the "GMT" zone subkey; this is present on * NT, but on XP has become "GMT Standard Time". We need to * discriminate between these cases. */ static const char* const WIN_TYPE_PROBE_REGKEY[] = { /* WIN_9X_ME_TYPE */ "SOFTWARE\\Microsoft\\Windows\\CurrentVersion\\Time Zones", /* WIN_NT_TYPE */ "SOFTWARE\\Microsoft\\Windows NT\\CurrentVersion\\Time Zones\\GMT" /* otherwise: WIN_2K_XP_TYPE */ }; /** * The time zone root subkeys (under HKLM) for different flavors of * Windows. */ static const char* const TZ_REGKEY[] = { /* WIN_9X_ME_TYPE */ "SOFTWARE\\Microsoft\\Windows\\CurrentVersion\\Time Zones\\", /* WIN_NT_TYPE | WIN_2K_XP_TYPE */ "SOFTWARE\\Microsoft\\Windows NT\\CurrentVersion\\Time Zones\\" }; /** * Flavor of Windows, from our perspective. Not a real OS version, * but rather the flavor of the layout of the time zone information in * the registry. */ enum { WIN_9X_ME_TYPE = 1, WIN_NT_TYPE = 2, WIN_2K_XP_TYPE = 3 }; static int32_t gWinType = 0; static int32_t detectWindowsType() { int32_t winType; LONG result; HKEY hkey; /* Detect the version of windows by trying to open a sequence of probe keys. We don't use the OS version API because what we really want to know is how the registry is laid out. Specifically, is it 9x/Me or not, and is it "GMT" or "GMT Standard Time". */ for (winType = 0; winType < 2; winType++) { result = RegOpenKeyExA(HKEY_LOCAL_MACHINE, WIN_TYPE_PROBE_REGKEY[winType], 0, KEY_QUERY_VALUE, &hkey); RegCloseKey(hkey); if (result == ERROR_SUCCESS) { break; } } return winType+1; /* +1 to bring it inline with the enum */ } static LONG openTZRegKey(HKEY *hkey, const char *winid) { char subKeyName[110]; /* TODO: why 96?? */ char *name; LONG result; /* This isn't thread safe, but it's good enough because the result should be constant per system. */ if (gWinType <= 0) { gWinType = detectWindowsType(); } uprv_strcpy(subKeyName, TZ_REGKEY[(gWinType != WIN_9X_ME_TYPE)]); name = &subKeyName[strlen(subKeyName)]; uprv_strcat(subKeyName, winid); if (gWinType == WIN_9X_ME_TYPE) { /* Remove " Standard Time" */ char *pStd = uprv_strstr(subKeyName, STANDARD_TIME_REGKEY); if (pStd) { *pStd = 0; } } result = RegOpenKeyExA(HKEY_LOCAL_MACHINE, subKeyName, 0, KEY_QUERY_VALUE, hkey); return result; } static LONG getTZI(const char *winid, TZI *tzi) { DWORD cbData = sizeof(TZI); LONG result; HKEY hkey; result = openTZRegKey(&hkey, winid); if (result == ERROR_SUCCESS) { result = RegQueryValueExA(hkey, TZI_REGKEY, NULL, NULL, (LPBYTE)tzi, &cbData); } RegCloseKey(hkey); return result; } static LONG getSTDName(const char *winid, char *regStdName, int32_t length) { DWORD cbData = length; LONG result; HKEY hkey; result = openTZRegKey(&hkey, winid); if (result == ERROR_SUCCESS) { result = RegQueryValueExA(hkey, STD_REGKEY, NULL, NULL, (LPBYTE)regStdName, &cbData); } RegCloseKey(hkey); return result; } /* This code attempts to detect the Windows time zone, as set in the Windows Date and Time control panel. It attempts to work on multiple flavors of Windows (9x, Me, NT, 2000, XP) and on localized installs. It works by directly interrogating the registry and comparing the data there with the data returned by the GetTimeZoneInformation API, along with some other strategies. The registry contains time zone data under one of two keys (depending on the flavor of Windows): HKLM\SOFTWARE\Microsoft\Windows\CurrentVersion\Time Zones\ HKLM\SOFTWARE\Microsoft\Windows NT\CurrentVersion\Time Zones\ Under this key are several subkeys, one for each time zone. These subkeys are named "Pacific" on Win9x/Me and "Pacific Standard Time" on WinNT/2k/XP. There are some other wrinkles; see the code for details. The subkey name is NOT LOCALIZED, allowing us to support localized installs. Under the subkey are data values. We care about: Std Standard time display name, localized TZI Binary block of data The TZI data is of particular interest. It contains the offset, two more offsets for standard and daylight time, and the start and end rules. This is the same data returned by the GetTimeZoneInformation API. The API may modify the data on the way out, so we have to be careful, but essentially we do a binary comparison against the TZI blocks of various registry keys. When we find a match, we know what time zone Windows is set to. Since the registry key is not localized, we can then translate the key through a simple table lookup into the corresponding ICU time zone. This strategy doesn't always work because there are zones which share an offset and rules, so more than one TZI block will match. For example, both Tokyo and Seoul are at GMT+9 with no DST rules; their TZI blocks are identical. For these cases, we fall back to a name lookup. We attempt to match the display name as stored in the registry for the current zone to the display name stored in the registry for various Windows zones. By comparing the registry data directly we avoid conversion complications. Author: Alan Liu Since: ICU 2.6 Based on original code by Carl Brown */ /** * Main Windows time zone detection function. Returns the Windows * time zone, translated to an ICU time zone, or NULL upon failure. */ U_CFUNC const char* U_EXPORT2 uprv_detectWindowsTimeZone() { UErrorCode status = U_ZERO_ERROR; UResourceBundle* bundle = NULL; char* icuid = NULL; UChar apiStd[MAX_LENGTH_ID]; char apiStdName[MAX_LENGTH_ID]; char regStdName[MAX_LENGTH_ID]; char tmpid[MAX_LENGTH_ID]; int32_t apiStdLength = 0; int32_t len; LONG result; TZI tziKey; TZI tziReg; TIME_ZONE_INFORMATION apiTZI; /* Obtain TIME_ZONE_INFORMATION from the API, and then convert it to TZI. We could also interrogate the registry directly; we do this below if needed. */ uprv_memset(&apiTZI, 0, sizeof(apiTZI)); uprv_memset(&tziKey, 0, sizeof(tziKey)); uprv_memset(&tziReg, 0, sizeof(tziReg)); GetTimeZoneInformation(&apiTZI); tziKey.bias = apiTZI.Bias; uprv_memcpy((char *)&tziKey.standardDate, (char*)&apiTZI.StandardDate, sizeof(apiTZI.StandardDate)); uprv_memcpy((char *)&tziKey.daylightDate, (char*)&apiTZI.DaylightDate, sizeof(apiTZI.DaylightDate)); /* Convert the wchar_t* standard name to char* */ uprv_memset(apiStdName, 0, sizeof(apiStdName)); u_strFromWCS(apiStd, MAX_LENGTH_ID, &apiStdLength, apiTZI.StandardName, -1, &status); u_austrncpy(apiStdName, apiStd, apiStdLength); tmpid[0] = 0; bundle = ures_openDirect(NULL, "windowsZones", &status); ures_getByKey(bundle, "mapTimezones", bundle, &status); /* Note: We get the winid not from static tables but from resource bundle. */ while (U_SUCCESS(status) && ures_hasNext(bundle)) { UBool idFound = FALSE; const char* winid; UResourceBundle* winTZ = ures_getNextResource(bundle, NULL, &status); if (U_FAILURE(status)) { break; } winid = ures_getKey(winTZ); result = getTZI(winid, &tziReg); if (result == ERROR_SUCCESS) { /* Windows alters the DaylightBias in some situations. Using the bias and the rules suffices, so overwrite these unreliable fields. */ tziKey.standardBias = tziReg.standardBias; tziKey.daylightBias = tziReg.daylightBias; if (uprv_memcmp((char *)&tziKey, (char*)&tziReg, sizeof(tziKey)) == 0) { const UChar* icuTZ = ures_getStringByKey(winTZ, "001", &len, &status); if (U_SUCCESS(status)) { /* Get the standard name from the registry key to compare with the one from Windows API call. */ uprv_memset(regStdName, 0, sizeof(regStdName)); result = getSTDName(winid, regStdName, sizeof(regStdName)); if (result == ERROR_SUCCESS) { if (uprv_strcmp(apiStdName, regStdName) == 0) { idFound = TRUE; } } /* tmpid buffer holds the ICU timezone ID corresponding to the timezone ID from Windows. * If none is found, tmpid buffer will contain a fallback ID (i.e. the time zone ID matching * the current time zone information) */ if (idFound || tmpid[0] == 0) { uprv_memset(tmpid, 0, sizeof(tmpid)); u_austrncpy(tmpid, icuTZ, len); } } } } ures_close(winTZ); if (idFound) { break; } } /* * Copy the timezone ID to icuid to be returned. */ if (tmpid[0] != 0) { len = uprv_strlen(tmpid); icuid = (char*)uprv_calloc(len + 1, sizeof(char)); if (icuid != NULL) { uprv_strcpy(icuid, tmpid); } } ures_close(bundle); return icuid; } #endif /* U_PLATFORM_HAS_WIN32_API */