/*----------------------------------------------------------------------- * * PostgreSQL locale utilities * * Portions Copyright (c) 2002-2020, PostgreSQL Global Development Group * * src/backend/utils/adt/pg_locale.c * *----------------------------------------------------------------------- */ /*---------- * Here is how the locale stuff is handled: LC_COLLATE and LC_CTYPE * are fixed at CREATE DATABASE time, stored in pg_database, and cannot * be changed. Thus, the effects of strcoll(), strxfrm(), isupper(), * toupper(), etc. are always in the same fixed locale. * * LC_MESSAGES is settable at run time and will take effect * immediately. * * The other categories, LC_MONETARY, LC_NUMERIC, and LC_TIME are also * settable at run-time. However, we don't actually set those locale * categories permanently. This would have bizarre effects like no * longer accepting standard floating-point literals in some locales. * Instead, we only set these locale categories briefly when needed, * cache the required information obtained from localeconv() or * strftime(), and then set the locale categories back to "C". * The cached information is only used by the formatting functions * (to_char, etc.) and the money type. For the user, this should all be * transparent. * * !!! NOW HEAR THIS !!! * * We've been bitten repeatedly by this bug, so let's try to keep it in * mind in future: on some platforms, the locale functions return pointers * to static data that will be overwritten by any later locale function. * Thus, for example, the obvious-looking sequence * save = setlocale(category, NULL); * if (!setlocale(category, value)) * fail = true; * setlocale(category, save); * DOES NOT WORK RELIABLY: on some platforms the second setlocale() call * will change the memory save is pointing at. To do this sort of thing * safely, you *must* pstrdup what setlocale returns the first time. * * The POSIX locale standard is available here: * * http://www.opengroup.org/onlinepubs/009695399/basedefs/xbd_chap07.html *---------- */ #include "postgres.h" #include #include "access/htup_details.h" #include "catalog/pg_collation.h" #include "catalog/pg_control.h" #include "mb/pg_wchar.h" #include "utils/builtins.h" #include "utils/formatting.h" #include "utils/hsearch.h" #include "utils/lsyscache.h" #include "utils/memutils.h" #include "utils/pg_locale.h" #include "utils/syscache.h" #ifdef USE_ICU #include #endif #ifdef __GLIBC__ #include #endif #ifdef WIN32 /* * This Windows file defines StrNCpy. We don't need it here, so we undefine * it to keep the compiler quiet, and undefine it again after the file is * included, so we don't accidentally use theirs. */ #undef StrNCpy #include #ifdef StrNCpy #undef StrNCpy #endif #endif #define MAX_L10N_DATA 80 /* GUC settings */ char *locale_messages; char *locale_monetary; char *locale_numeric; char *locale_time; /* * lc_time localization cache. * * We use only the first 7 or 12 entries of these arrays. The last array * element is left as NULL for the convenience of outside code that wants * to sequentially scan these arrays. */ char *localized_abbrev_days[7 + 1]; char *localized_full_days[7 + 1]; char *localized_abbrev_months[12 + 1]; char *localized_full_months[12 + 1]; /* indicates whether locale information cache is valid */ static bool CurrentLocaleConvValid = false; static bool CurrentLCTimeValid = false; /* Environment variable storage area */ #define LC_ENV_BUFSIZE (NAMEDATALEN + 20) static char lc_collate_envbuf[LC_ENV_BUFSIZE]; static char lc_ctype_envbuf[LC_ENV_BUFSIZE]; #ifdef LC_MESSAGES static char lc_messages_envbuf[LC_ENV_BUFSIZE]; #endif static char lc_monetary_envbuf[LC_ENV_BUFSIZE]; static char lc_numeric_envbuf[LC_ENV_BUFSIZE]; static char lc_time_envbuf[LC_ENV_BUFSIZE]; /* Cache for collation-related knowledge */ typedef struct { Oid collid; /* hash key: pg_collation OID */ bool collate_is_c; /* is collation's LC_COLLATE C? */ bool ctype_is_c; /* is collation's LC_CTYPE C? */ bool flags_valid; /* true if above flags are valid */ pg_locale_t locale; /* locale_t struct, or 0 if not valid */ } collation_cache_entry; static HTAB *collation_cache = NULL; #if defined(WIN32) && defined(LC_MESSAGES) static char *IsoLocaleName(const char *); /* MSVC specific */ #endif #ifdef USE_ICU static void icu_set_collation_attributes(UCollator *collator, const char *loc); #endif /* * pg_perm_setlocale * * This wraps the libc function setlocale(), with two additions. First, when * changing LC_CTYPE, update gettext's encoding for the current message * domain. GNU gettext automatically tracks LC_CTYPE on most platforms, but * not on Windows. Second, if the operation is successful, the corresponding * LC_XXX environment variable is set to match. By setting the environment * variable, we ensure that any subsequent use of setlocale(..., "") will * preserve the settings made through this routine. Of course, LC_ALL must * also be unset to fully ensure that, but that has to be done elsewhere after * all the individual LC_XXX variables have been set correctly. (Thank you * Perl for making this kluge necessary.) */ char * pg_perm_setlocale(int category, const char *locale) { char *result; const char *envvar; char *envbuf; #ifndef WIN32 result = setlocale(category, locale); #else /* * On Windows, setlocale(LC_MESSAGES) does not work, so just assume that * the given value is good and set it in the environment variables. We * must ignore attempts to set to "", which means "keep using the old * environment value". */ #ifdef LC_MESSAGES if (category == LC_MESSAGES) { result = (char *) locale; if (locale == NULL || locale[0] == '\0') return result; } else #endif result = setlocale(category, locale); #endif /* WIN32 */ if (result == NULL) return result; /* fall out immediately on failure */ /* * Use the right encoding in translated messages. Under ENABLE_NLS, let * pg_bind_textdomain_codeset() figure it out. Under !ENABLE_NLS, message * format strings are ASCII, but database-encoding strings may enter the * message via %s. This makes the overall message encoding equal to the * database encoding. */ if (category == LC_CTYPE) { static char save_lc_ctype[LC_ENV_BUFSIZE]; /* copy setlocale() return value before callee invokes it again */ strlcpy(save_lc_ctype, result, sizeof(save_lc_ctype)); result = save_lc_ctype; #ifdef ENABLE_NLS SetMessageEncoding(pg_bind_textdomain_codeset(textdomain(NULL))); #else SetMessageEncoding(GetDatabaseEncoding()); #endif } switch (category) { case LC_COLLATE: envvar = "LC_COLLATE"; envbuf = lc_collate_envbuf; break; case LC_CTYPE: envvar = "LC_CTYPE"; envbuf = lc_ctype_envbuf; break; #ifdef LC_MESSAGES case LC_MESSAGES: envvar = "LC_MESSAGES"; envbuf = lc_messages_envbuf; #ifdef WIN32 result = IsoLocaleName(locale); if (result == NULL) result = (char *) locale; elog(DEBUG3, "IsoLocaleName() executed; locale: \"%s\"", result); #endif /* WIN32 */ break; #endif /* LC_MESSAGES */ case LC_MONETARY: envvar = "LC_MONETARY"; envbuf = lc_monetary_envbuf; break; case LC_NUMERIC: envvar = "LC_NUMERIC"; envbuf = lc_numeric_envbuf; break; case LC_TIME: envvar = "LC_TIME"; envbuf = lc_time_envbuf; break; default: elog(FATAL, "unrecognized LC category: %d", category); envvar = NULL; /* keep compiler quiet */ envbuf = NULL; return NULL; } snprintf(envbuf, LC_ENV_BUFSIZE - 1, "%s=%s", envvar, result); if (putenv(envbuf)) return NULL; return result; } /* * Is the locale name valid for the locale category? * * If successful, and canonname isn't NULL, a palloc'd copy of the locale's * canonical name is stored there. This is especially useful for figuring out * what locale name "" means (ie, the server environment value). (Actually, * it seems that on most implementations that's the only thing it's good for; * we could wish that setlocale gave back a canonically spelled version of * the locale name, but typically it doesn't.) */ bool check_locale(int category, const char *locale, char **canonname) { char *save; char *res; if (canonname) *canonname = NULL; /* in case of failure */ save = setlocale(category, NULL); if (!save) return false; /* won't happen, we hope */ /* save may be pointing at a modifiable scratch variable, see above. */ save = pstrdup(save); /* set the locale with setlocale, to see if it accepts it. */ res = setlocale(category, locale); /* save canonical name if requested. */ if (res && canonname) *canonname = pstrdup(res); /* restore old value. */ if (!setlocale(category, save)) elog(WARNING, "failed to restore old locale \"%s\"", save); pfree(save); return (res != NULL); } /* * GUC check/assign hooks * * For most locale categories, the assign hook doesn't actually set the locale * permanently, just reset flags so that the next use will cache the * appropriate values. (See explanation at the top of this file.) * * Note: we accept value = "" as selecting the postmaster's environment * value, whatever it was (so long as the environment setting is legal). * This will have been locked down by an earlier call to pg_perm_setlocale. */ bool check_locale_monetary(char **newval, void **extra, GucSource source) { return check_locale(LC_MONETARY, *newval, NULL); } void assign_locale_monetary(const char *newval, void *extra) { CurrentLocaleConvValid = false; } bool check_locale_numeric(char **newval, void **extra, GucSource source) { return check_locale(LC_NUMERIC, *newval, NULL); } void assign_locale_numeric(const char *newval, void *extra) { CurrentLocaleConvValid = false; } bool check_locale_time(char **newval, void **extra, GucSource source) { return check_locale(LC_TIME, *newval, NULL); } void assign_locale_time(const char *newval, void *extra) { CurrentLCTimeValid = false; } /* * We allow LC_MESSAGES to actually be set globally. * * Note: we normally disallow value = "" because it wouldn't have consistent * semantics (it'd effectively just use the previous value). However, this * is the value passed for PGC_S_DEFAULT, so don't complain in that case, * not even if the attempted setting fails due to invalid environment value. * The idea there is just to accept the environment setting *if possible* * during startup, until we can read the proper value from postgresql.conf. */ bool check_locale_messages(char **newval, void **extra, GucSource source) { if (**newval == '\0') { if (source == PGC_S_DEFAULT) return true; else return false; } /* * LC_MESSAGES category does not exist everywhere, but accept it anyway * * On Windows, we can't even check the value, so accept blindly */ #if defined(LC_MESSAGES) && !defined(WIN32) return check_locale(LC_MESSAGES, *newval, NULL); #else return true; #endif } void assign_locale_messages(const char *newval, void *extra) { /* * LC_MESSAGES category does not exist everywhere, but accept it anyway. * We ignore failure, as per comment above. */ #ifdef LC_MESSAGES (void) pg_perm_setlocale(LC_MESSAGES, newval); #endif } /* * Frees the malloced content of a struct lconv. (But not the struct * itself.) It's important that this not throw elog(ERROR). */ static void free_struct_lconv(struct lconv *s) { if (s->decimal_point) free(s->decimal_point); if (s->thousands_sep) free(s->thousands_sep); if (s->grouping) free(s->grouping); if (s->int_curr_symbol) free(s->int_curr_symbol); if (s->currency_symbol) free(s->currency_symbol); if (s->mon_decimal_point) free(s->mon_decimal_point); if (s->mon_thousands_sep) free(s->mon_thousands_sep); if (s->mon_grouping) free(s->mon_grouping); if (s->positive_sign) free(s->positive_sign); if (s->negative_sign) free(s->negative_sign); } /* * Check that all fields of a struct lconv (or at least, the ones we care * about) are non-NULL. The field list must match free_struct_lconv(). */ static bool struct_lconv_is_valid(struct lconv *s) { if (s->decimal_point == NULL) return false; if (s->thousands_sep == NULL) return false; if (s->grouping == NULL) return false; if (s->int_curr_symbol == NULL) return false; if (s->currency_symbol == NULL) return false; if (s->mon_decimal_point == NULL) return false; if (s->mon_thousands_sep == NULL) return false; if (s->mon_grouping == NULL) return false; if (s->positive_sign == NULL) return false; if (s->negative_sign == NULL) return false; return true; } /* * Convert the strdup'd string at *str from the specified encoding to the * database encoding. */ static void db_encoding_convert(int encoding, char **str) { char *pstr; char *mstr; /* convert the string to the database encoding */ pstr = pg_any_to_server(*str, strlen(*str), encoding); if (pstr == *str) return; /* no conversion happened */ /* need it malloc'd not palloc'd */ mstr = strdup(pstr); if (mstr == NULL) ereport(ERROR, (errcode(ERRCODE_OUT_OF_MEMORY), errmsg("out of memory"))); /* replace old string */ free(*str); *str = mstr; pfree(pstr); } /* * Return the POSIX lconv struct (contains number/money formatting * information) with locale information for all categories. */ struct lconv * PGLC_localeconv(void) { static struct lconv CurrentLocaleConv; static bool CurrentLocaleConvAllocated = false; struct lconv *extlconv; struct lconv worklconv; char *save_lc_monetary; char *save_lc_numeric; #ifdef WIN32 char *save_lc_ctype; #endif /* Did we do it already? */ if (CurrentLocaleConvValid) return &CurrentLocaleConv; /* Free any already-allocated storage */ if (CurrentLocaleConvAllocated) { free_struct_lconv(&CurrentLocaleConv); CurrentLocaleConvAllocated = false; } /* * This is tricky because we really don't want to risk throwing error * while the locale is set to other than our usual settings. Therefore, * the process is: collect the usual settings, set locale to special * setting, copy relevant data into worklconv using strdup(), restore * normal settings, convert data to desired encoding, and finally stash * the collected data in CurrentLocaleConv. This makes it safe if we * throw an error during encoding conversion or run out of memory anywhere * in the process. All data pointed to by struct lconv members is * allocated with strdup, to avoid premature elog(ERROR) and to allow * using a single cleanup routine. */ memset(&worklconv, 0, sizeof(worklconv)); /* Save prevailing values of monetary and numeric locales */ save_lc_monetary = setlocale(LC_MONETARY, NULL); if (!save_lc_monetary) elog(ERROR, "setlocale(NULL) failed"); save_lc_monetary = pstrdup(save_lc_monetary); save_lc_numeric = setlocale(LC_NUMERIC, NULL); if (!save_lc_numeric) elog(ERROR, "setlocale(NULL) failed"); save_lc_numeric = pstrdup(save_lc_numeric); #ifdef WIN32 /* * The POSIX standard explicitly says that it is undefined what happens if * LC_MONETARY or LC_NUMERIC imply an encoding (codeset) different from * that implied by LC_CTYPE. In practice, all Unix-ish platforms seem to * believe that localeconv() should return strings that are encoded in the * codeset implied by the LC_MONETARY or LC_NUMERIC locale name. Hence, * once we have successfully collected the localeconv() results, we will * convert them from that codeset to the desired server encoding. * * Windows, of course, resolutely does things its own way; on that * platform LC_CTYPE has to match LC_MONETARY/LC_NUMERIC to get sane * results. Hence, we must temporarily set that category as well. */ /* Save prevailing value of ctype locale */ save_lc_ctype = setlocale(LC_CTYPE, NULL); if (!save_lc_ctype) elog(ERROR, "setlocale(NULL) failed"); save_lc_ctype = pstrdup(save_lc_ctype); /* Here begins the critical section where we must not throw error */ /* use numeric to set the ctype */ setlocale(LC_CTYPE, locale_numeric); #endif /* Get formatting information for numeric */ setlocale(LC_NUMERIC, locale_numeric); extlconv = localeconv(); /* Must copy data now in case setlocale() overwrites it */ worklconv.decimal_point = strdup(extlconv->decimal_point); worklconv.thousands_sep = strdup(extlconv->thousands_sep); worklconv.grouping = strdup(extlconv->grouping); #ifdef WIN32 /* use monetary to set the ctype */ setlocale(LC_CTYPE, locale_monetary); #endif /* Get formatting information for monetary */ setlocale(LC_MONETARY, locale_monetary); extlconv = localeconv(); /* Must copy data now in case setlocale() overwrites it */ worklconv.int_curr_symbol = strdup(extlconv->int_curr_symbol); worklconv.currency_symbol = strdup(extlconv->currency_symbol); worklconv.mon_decimal_point = strdup(extlconv->mon_decimal_point); worklconv.mon_thousands_sep = strdup(extlconv->mon_thousands_sep); worklconv.mon_grouping = strdup(extlconv->mon_grouping); worklconv.positive_sign = strdup(extlconv->positive_sign); worklconv.negative_sign = strdup(extlconv->negative_sign); /* Copy scalar fields as well */ worklconv.int_frac_digits = extlconv->int_frac_digits; worklconv.frac_digits = extlconv->frac_digits; worklconv.p_cs_precedes = extlconv->p_cs_precedes; worklconv.p_sep_by_space = extlconv->p_sep_by_space; worklconv.n_cs_precedes = extlconv->n_cs_precedes; worklconv.n_sep_by_space = extlconv->n_sep_by_space; worklconv.p_sign_posn = extlconv->p_sign_posn; worklconv.n_sign_posn = extlconv->n_sign_posn; /* * Restore the prevailing locale settings; failure to do so is fatal. * Possibly we could limp along with nondefault LC_MONETARY or LC_NUMERIC, * but proceeding with the wrong value of LC_CTYPE would certainly be bad * news; and considering that the prevailing LC_MONETARY and LC_NUMERIC * are almost certainly "C", there's really no reason that restoring those * should fail. */ #ifdef WIN32 if (!setlocale(LC_CTYPE, save_lc_ctype)) elog(FATAL, "failed to restore LC_CTYPE to \"%s\"", save_lc_ctype); #endif if (!setlocale(LC_MONETARY, save_lc_monetary)) elog(FATAL, "failed to restore LC_MONETARY to \"%s\"", save_lc_monetary); if (!setlocale(LC_NUMERIC, save_lc_numeric)) elog(FATAL, "failed to restore LC_NUMERIC to \"%s\"", save_lc_numeric); /* * At this point we've done our best to clean up, and can call functions * that might possibly throw errors with a clean conscience. But let's * make sure we don't leak any already-strdup'd fields in worklconv. */ PG_TRY(); { int encoding; /* Release the pstrdup'd locale names */ pfree(save_lc_monetary); pfree(save_lc_numeric); #ifdef WIN32 pfree(save_lc_ctype); #endif /* If any of the preceding strdup calls failed, complain now. */ if (!struct_lconv_is_valid(&worklconv)) ereport(ERROR, (errcode(ERRCODE_OUT_OF_MEMORY), errmsg("out of memory"))); /* * Now we must perform encoding conversion from whatever's associated * with the locales into the database encoding. If we can't identify * the encoding implied by LC_NUMERIC or LC_MONETARY (ie we get -1), * use PG_SQL_ASCII, which will result in just validating that the * strings are OK in the database encoding. */ encoding = pg_get_encoding_from_locale(locale_numeric, true); if (encoding < 0) encoding = PG_SQL_ASCII; db_encoding_convert(encoding, &worklconv.decimal_point); db_encoding_convert(encoding, &worklconv.thousands_sep); /* grouping is not text and does not require conversion */ encoding = pg_get_encoding_from_locale(locale_monetary, true); if (encoding < 0) encoding = PG_SQL_ASCII; db_encoding_convert(encoding, &worklconv.int_curr_symbol); db_encoding_convert(encoding, &worklconv.currency_symbol); db_encoding_convert(encoding, &worklconv.mon_decimal_point); db_encoding_convert(encoding, &worklconv.mon_thousands_sep); /* mon_grouping is not text and does not require conversion */ db_encoding_convert(encoding, &worklconv.positive_sign); db_encoding_convert(encoding, &worklconv.negative_sign); } PG_CATCH(); { free_struct_lconv(&worklconv); PG_RE_THROW(); } PG_END_TRY(); /* * Everything is good, so save the results. */ CurrentLocaleConv = worklconv; CurrentLocaleConvAllocated = true; CurrentLocaleConvValid = true; return &CurrentLocaleConv; } #ifdef WIN32 /* * On Windows, strftime() returns its output in encoding CP_ACP (the default * operating system codepage for the computer), which is likely different * from SERVER_ENCODING. This is especially important in Japanese versions * of Windows which will use SJIS encoding, which we don't support as a * server encoding. * * So, instead of using strftime(), use wcsftime() to return the value in * wide characters (internally UTF16) and then convert to UTF8, which we * know how to handle directly. * * Note that this only affects the calls to strftime() in this file, which are * used to get the locale-aware strings. Other parts of the backend use * pg_strftime(), which isn't locale-aware and does not need to be replaced. */ static size_t strftime_win32(char *dst, size_t dstlen, const char *format, const struct tm *tm) { size_t len; wchar_t wformat[8]; /* formats used below need 3 chars */ wchar_t wbuf[MAX_L10N_DATA]; /* * Get a wchar_t version of the format string. We only actually use * plain-ASCII formats in this file, so we can say that they're UTF8. */ len = MultiByteToWideChar(CP_UTF8, 0, format, -1, wformat, lengthof(wformat)); if (len == 0) elog(ERROR, "could not convert format string from UTF-8: error code %lu", GetLastError()); len = wcsftime(wbuf, MAX_L10N_DATA, wformat, tm); if (len == 0) { /* * wcsftime failed, possibly because the result would not fit in * MAX_L10N_DATA. Return 0 with the contents of dst unspecified. */ return 0; } len = WideCharToMultiByte(CP_UTF8, 0, wbuf, len, dst, dstlen - 1, NULL, NULL); if (len == 0) elog(ERROR, "could not convert string to UTF-8: error code %lu", GetLastError()); dst[len] = '\0'; return len; } /* redefine strftime() */ #define strftime(a,b,c,d) strftime_win32(a,b,c,d) #endif /* WIN32 */ /* * Subroutine for cache_locale_time(). * Convert the given string from encoding "encoding" to the database * encoding, and store the result at *dst, replacing any previous value. */ static void cache_single_string(char **dst, const char *src, int encoding) { char *ptr; char *olddst; /* Convert the string to the database encoding, or validate it's OK */ ptr = pg_any_to_server(src, strlen(src), encoding); /* Store the string in long-lived storage, replacing any previous value */ olddst = *dst; *dst = MemoryContextStrdup(TopMemoryContext, ptr); if (olddst) pfree(olddst); /* Might as well clean up any palloc'd conversion result, too */ if (ptr != src) pfree(ptr); } /* * Update the lc_time localization cache variables if needed. */ void cache_locale_time(void) { char buf[(2 * 7 + 2 * 12) * MAX_L10N_DATA]; char *bufptr; time_t timenow; struct tm *timeinfo; bool strftimefail = false; int encoding; int i; char *save_lc_time; #ifdef WIN32 char *save_lc_ctype; #endif /* did we do this already? */ if (CurrentLCTimeValid) return; elog(DEBUG3, "cache_locale_time() executed; locale: \"%s\"", locale_time); /* * As in PGLC_localeconv(), it's critical that we not throw error while * libc's locale settings have nondefault values. Hence, we just call * strftime() within the critical section, and then convert and save its * results afterwards. */ /* Save prevailing value of time locale */ save_lc_time = setlocale(LC_TIME, NULL); if (!save_lc_time) elog(ERROR, "setlocale(NULL) failed"); save_lc_time = pstrdup(save_lc_time); #ifdef WIN32 /* * On Windows, it appears that wcsftime() internally uses LC_CTYPE, so we * must set it here. This code looks the same as what PGLC_localeconv() * does, but the underlying reason is different: this does NOT determine * the encoding we'll get back from strftime_win32(). */ /* Save prevailing value of ctype locale */ save_lc_ctype = setlocale(LC_CTYPE, NULL); if (!save_lc_ctype) elog(ERROR, "setlocale(NULL) failed"); save_lc_ctype = pstrdup(save_lc_ctype); /* use lc_time to set the ctype */ setlocale(LC_CTYPE, locale_time); #endif setlocale(LC_TIME, locale_time); /* We use times close to current time as data for strftime(). */ timenow = time(NULL); timeinfo = localtime(&timenow); /* Store the strftime results in MAX_L10N_DATA-sized portions of buf[] */ bufptr = buf; /* * MAX_L10N_DATA is sufficient buffer space for every known locale, and * POSIX defines no strftime() errors. (Buffer space exhaustion is not an * error.) An implementation might report errors (e.g. ENOMEM) by * returning 0 (or, less plausibly, a negative value) and setting errno. * Report errno just in case the implementation did that, but clear it in * advance of the calls so we don't emit a stale, unrelated errno. */ errno = 0; /* localized days */ for (i = 0; i < 7; i++) { timeinfo->tm_wday = i; if (strftime(bufptr, MAX_L10N_DATA, "%a", timeinfo) <= 0) strftimefail = true; bufptr += MAX_L10N_DATA; if (strftime(bufptr, MAX_L10N_DATA, "%A", timeinfo) <= 0) strftimefail = true; bufptr += MAX_L10N_DATA; } /* localized months */ for (i = 0; i < 12; i++) { timeinfo->tm_mon = i; timeinfo->tm_mday = 1; /* make sure we don't have invalid date */ if (strftime(bufptr, MAX_L10N_DATA, "%b", timeinfo) <= 0) strftimefail = true; bufptr += MAX_L10N_DATA; if (strftime(bufptr, MAX_L10N_DATA, "%B", timeinfo) <= 0) strftimefail = true; bufptr += MAX_L10N_DATA; } /* * Restore the prevailing locale settings; as in PGLC_localeconv(), * failure to do so is fatal. */ #ifdef WIN32 if (!setlocale(LC_CTYPE, save_lc_ctype)) elog(FATAL, "failed to restore LC_CTYPE to \"%s\"", save_lc_ctype); #endif if (!setlocale(LC_TIME, save_lc_time)) elog(FATAL, "failed to restore LC_TIME to \"%s\"", save_lc_time); /* * At this point we've done our best to clean up, and can throw errors, or * call functions that might throw errors, with a clean conscience. */ if (strftimefail) elog(ERROR, "strftime() failed: %m"); /* Release the pstrdup'd locale names */ pfree(save_lc_time); #ifdef WIN32 pfree(save_lc_ctype); #endif #ifndef WIN32 /* * As in PGLC_localeconv(), we must convert strftime()'s output from the * encoding implied by LC_TIME to the database encoding. If we can't * identify the LC_TIME encoding, just perform encoding validation. */ encoding = pg_get_encoding_from_locale(locale_time, true); if (encoding < 0) encoding = PG_SQL_ASCII; #else /* * On Windows, strftime_win32() always returns UTF8 data, so convert from * that if necessary. */ encoding = PG_UTF8; #endif /* WIN32 */ bufptr = buf; /* localized days */ for (i = 0; i < 7; i++) { cache_single_string(&localized_abbrev_days[i], bufptr, encoding); bufptr += MAX_L10N_DATA; cache_single_string(&localized_full_days[i], bufptr, encoding); bufptr += MAX_L10N_DATA; } localized_abbrev_days[7] = NULL; localized_full_days[7] = NULL; /* localized months */ for (i = 0; i < 12; i++) { cache_single_string(&localized_abbrev_months[i], bufptr, encoding); bufptr += MAX_L10N_DATA; cache_single_string(&localized_full_months[i], bufptr, encoding); bufptr += MAX_L10N_DATA; } localized_abbrev_months[12] = NULL; localized_full_months[12] = NULL; CurrentLCTimeValid = true; } #if defined(WIN32) && defined(LC_MESSAGES) /* * Convert a Windows setlocale() argument to a Unix-style one. * * Regardless of platform, we install message catalogs under a Unix-style * LL[_CC][.ENCODING][@VARIANT] naming convention. Only LC_MESSAGES settings * following that style will elicit localized interface strings. * * Before Visual Studio 2012 (msvcr110.dll), Windows setlocale() accepted "C" * (but not "c") and strings of the form [_][.], * case-insensitive. setlocale() returns the fully-qualified form; for * example, setlocale("thaI") returns "Thai_Thailand.874". Internally, * setlocale() and _create_locale() select a "locale identifier"[1] and store * it in an undocumented _locale_t field. From that LCID, we can retrieve the * ISO 639 language and the ISO 3166 country. Character encoding does not * matter, because the server and client encodings govern that. * * Windows Vista introduced the "locale name" concept[2], closely following * RFC 4646. Locale identifiers are now deprecated. Starting with Visual * Studio 2012, setlocale() accepts locale names in addition to the strings it * accepted historically. It does not standardize them; setlocale("Th-tH") * returns "Th-tH". setlocale(category, "") still returns a traditional * string. Furthermore, msvcr110.dll changed the undocumented _locale_t * content to carry locale names instead of locale identifiers. * * Visual Studio 2015 should still be able to do the same as Visual Studio * 2012, but the declaration of locale_name is missing in _locale_t, causing * this code compilation to fail, hence this falls back instead on to * enumerating all system locales by using EnumSystemLocalesEx to find the * required locale name. If the input argument is in Unix-style then we can * get ISO Locale name directly by using GetLocaleInfoEx() with LCType as * LOCALE_SNAME. * * MinGW headers declare _create_locale(), but msvcrt.dll lacks that symbol in * releases before Windows 8. IsoLocaleName() always fails in a MinGW-built * postgres.exe, so only Unix-style values of the lc_messages GUC can elicit * localized messages. In particular, every lc_messages setting that initdb * can select automatically will yield only C-locale messages. XXX This could * be fixed by running the fully-qualified locale name through a lookup table. * * This function returns a pointer to a static buffer bearing the converted * name or NULL if conversion fails. * * [1] https://docs.microsoft.com/en-us/windows/win32/intl/locale-identifiers * [2] https://docs.microsoft.com/en-us/windows/win32/intl/locale-names */ #if _MSC_VER >= 1900 /* * Callback function for EnumSystemLocalesEx() in get_iso_localename(). * * This function enumerates all system locales, searching for one that matches * an input with the format: [_], e.g. * English[_United States] * * The input is a three wchar_t array as an LPARAM. The first element is the * locale_name we want to match, the second element is an allocated buffer * where the Unix-style locale is copied if a match is found, and the third * element is the search status, 1 if a match was found, 0 otherwise. */ static BOOL CALLBACK search_locale_enum(LPWSTR pStr, DWORD dwFlags, LPARAM lparam) { wchar_t test_locale[LOCALE_NAME_MAX_LENGTH]; wchar_t **argv; (void) (dwFlags); argv = (wchar_t **) lparam; *argv[2] = (wchar_t) 0; memset(test_locale, 0, sizeof(test_locale)); /* Get the name of the in English */ if (GetLocaleInfoEx(pStr, LOCALE_SENGLISHLANGUAGENAME, test_locale, LOCALE_NAME_MAX_LENGTH)) { /* * If the enumerated locale does not have a hyphen ("en") OR the * lc_message input does not have an underscore ("English"), we only * need to compare the tags. */ if (wcsrchr(pStr, '-') == NULL || wcsrchr(argv[0], '_') == NULL) { if (_wcsicmp(argv[0], test_locale) == 0) { wcscpy(argv[1], pStr); *argv[2] = (wchar_t) 1; return FALSE; } } /* * We have to compare a full _ tag, so we append * the underscore and name of the country/region in English, e.g. * "English_United States". */ else { size_t len; wcscat(test_locale, L"_"); len = wcslen(test_locale); if (GetLocaleInfoEx(pStr, LOCALE_SENGLISHCOUNTRYNAME, test_locale + len, LOCALE_NAME_MAX_LENGTH - len)) { if (_wcsicmp(argv[0], test_locale) == 0) { wcscpy(argv[1], pStr); *argv[2] = (wchar_t) 1; return FALSE; } } } } return TRUE; } /* * This function converts a Windows locale name to an ISO formatted version * for Visual Studio 2015 or greater. * * Returns NULL, if no valid conversion was found. */ static char * get_iso_localename(const char *winlocname) { wchar_t wc_locale_name[LOCALE_NAME_MAX_LENGTH]; wchar_t buffer[LOCALE_NAME_MAX_LENGTH]; static char iso_lc_messages[LOCALE_NAME_MAX_LENGTH]; char *period; int len; int ret_val; /* * Valid locales have the following syntax: * [_[.]] * * GetLocaleInfoEx can only take locale name without code-page and for the * purpose of this API the code-page doesn't matter. */ period = strchr(winlocname, '.'); if (period != NULL) len = period - winlocname; else len = pg_mbstrlen(winlocname); memset(wc_locale_name, 0, sizeof(wc_locale_name)); memset(buffer, 0, sizeof(buffer)); MultiByteToWideChar(CP_ACP, 0, winlocname, len, wc_locale_name, LOCALE_NAME_MAX_LENGTH); /* * If the lc_messages is already an Unix-style string, we have a direct * match with LOCALE_SNAME, e.g. en-US, en_US. */ ret_val = GetLocaleInfoEx(wc_locale_name, LOCALE_SNAME, (LPWSTR) &buffer, LOCALE_NAME_MAX_LENGTH); if (!ret_val) { /* * Search for a locale in the system that matches language and country * name. */ wchar_t *argv[3]; argv[0] = wc_locale_name; argv[1] = buffer; argv[2] = (wchar_t *) &ret_val; EnumSystemLocalesEx(search_locale_enum, LOCALE_WINDOWS, (LPARAM) argv, NULL); } if (ret_val) { size_t rc; char *hyphen; /* Locale names use only ASCII, any conversion locale suffices. */ rc = wchar2char(iso_lc_messages, buffer, sizeof(iso_lc_messages), NULL); if (rc == -1 || rc == sizeof(iso_lc_messages)) return NULL; /* * Simply replace the hyphen with an underscore. See comments in * IsoLocaleName. */ hyphen = strchr(iso_lc_messages, '-'); if (hyphen) *hyphen = '_'; return iso_lc_messages; } return NULL; } #endif /* _MSC_VER >= 1900 */ static char * IsoLocaleName(const char *winlocname) { #if defined(_MSC_VER) static char iso_lc_messages[LOCALE_NAME_MAX_LENGTH]; if (pg_strcasecmp("c", winlocname) == 0 || pg_strcasecmp("posix", winlocname) == 0) { strcpy(iso_lc_messages, "C"); return iso_lc_messages; } else { #if (_MSC_VER >= 1900) /* Visual Studio 2015 or later */ return get_iso_localename(winlocname); #else _locale_t loct; loct = _create_locale(LC_CTYPE, winlocname); if (loct != NULL) { size_t rc; char *hyphen; /* Locale names use only ASCII, any conversion locale suffices. */ rc = wchar2char(iso_lc_messages, loct->locinfo->locale_name[LC_CTYPE], sizeof(iso_lc_messages), NULL); _free_locale(loct); if (rc == -1 || rc == sizeof(iso_lc_messages)) return NULL; /* * Since the message catalogs sit on a case-insensitive * filesystem, we need not standardize letter case here. So long * as we do not ship message catalogs for which it would matter, * we also need not translate the script/variant portion, e.g. * uz-Cyrl-UZ to uz_UZ@cyrillic. Simply replace the hyphen with * an underscore. * * Note that the locale name can be less-specific than the value * we would derive under earlier Visual Studio releases. For * example, French_France.1252 yields just "fr". This does not * affect any of the country-specific message catalogs available * as of this writing (pt_BR, zh_CN, zh_TW). */ hyphen = strchr(iso_lc_messages, '-'); if (hyphen) *hyphen = '_'; return iso_lc_messages; } #endif /* Visual Studio 2015 or later */ } #endif /* defined(_MSC_VER) */ return NULL; /* Not supported on this version of msvc/mingw */ } #endif /* WIN32 && LC_MESSAGES */ /* * Detect aging strxfrm() implementations that, in a subset of locales, write * past the specified buffer length. Affected users must update OS packages * before using PostgreSQL 9.5 or later. * * Assume that the bug can come and go from one postmaster startup to another * due to physical replication among diverse machines. Assume that the bug's * presence will not change during the life of a particular postmaster. Given * those assumptions, call this no less than once per postmaster startup per * LC_COLLATE setting used. No known-affected system offers strxfrm_l(), so * there is no need to consider pg_collation locales. */ void check_strxfrm_bug(void) { char buf[32]; const int canary = 0x7F; bool ok = true; /* * Given a two-byte ASCII string and length limit 7, 8 or 9, Solaris 10 * 05/08 returns 18 and modifies 10 bytes. It respects limits above or * below that range. * * The bug is present in Solaris 8 as well; it is absent in Solaris 10 * 01/13 and Solaris 11.2. Affected locales include is_IS.ISO8859-1, * en_US.UTF-8, en_US.ISO8859-1, and ru_RU.KOI8-R. Unaffected locales * include de_DE.UTF-8, de_DE.ISO8859-1, zh_TW.UTF-8, and C. */ buf[7] = canary; (void) strxfrm(buf, "ab", 7); if (buf[7] != canary) ok = false; /* * illumos bug #1594 was present in the source tree from 2010-10-11 to * 2012-02-01. Given an ASCII string of any length and length limit 1, * affected systems ignore the length limit and modify a number of bytes * one less than the return value. The problem inputs for this bug do not * overlap those for the Solaris bug, hence a distinct test. * * Affected systems include smartos-20110926T021612Z. Affected locales * include en_US.ISO8859-1 and en_US.UTF-8. Unaffected locales include C. */ buf[1] = canary; (void) strxfrm(buf, "a", 1); if (buf[1] != canary) ok = false; if (!ok) ereport(ERROR, (errcode(ERRCODE_SYSTEM_ERROR), errmsg_internal("strxfrm(), in locale \"%s\", writes past the specified array length", setlocale(LC_COLLATE, NULL)), errhint("Apply system library package updates."))); } /* * Cache mechanism for collation information. * * We cache two flags: whether the collation's LC_COLLATE or LC_CTYPE is C * (or POSIX), so we can optimize a few code paths in various places. * For the built-in C and POSIX collations, we can know that without even * doing a cache lookup, but we want to support aliases for C/POSIX too. * For the "default" collation, there are separate static cache variables, * since consulting the pg_collation catalog doesn't tell us what we need. * * Also, if a pg_locale_t has been requested for a collation, we cache that * for the life of a backend. * * Note that some code relies on the flags not reporting false negatives * (that is, saying it's not C when it is). For example, char2wchar() * could fail if the locale is C, so str_tolower() shouldn't call it * in that case. * * Note that we currently lack any way to flush the cache. Since we don't * support ALTER COLLATION, this is OK. The worst case is that someone * drops a collation, and a useless cache entry hangs around in existing * backends. */ static collation_cache_entry * lookup_collation_cache(Oid collation, bool set_flags) { collation_cache_entry *cache_entry; bool found; Assert(OidIsValid(collation)); Assert(collation != DEFAULT_COLLATION_OID); if (collation_cache == NULL) { /* First time through, initialize the hash table */ HASHCTL ctl; memset(&ctl, 0, sizeof(ctl)); ctl.keysize = sizeof(Oid); ctl.entrysize = sizeof(collation_cache_entry); collation_cache = hash_create("Collation cache", 100, &ctl, HASH_ELEM | HASH_BLOBS); } cache_entry = hash_search(collation_cache, &collation, HASH_ENTER, &found); if (!found) { /* * Make sure cache entry is marked invalid, in case we fail before * setting things. */ cache_entry->flags_valid = false; cache_entry->locale = 0; } if (set_flags && !cache_entry->flags_valid) { /* Attempt to set the flags */ HeapTuple tp; Form_pg_collation collform; const char *collcollate; const char *collctype; tp = SearchSysCache1(COLLOID, ObjectIdGetDatum(collation)); if (!HeapTupleIsValid(tp)) elog(ERROR, "cache lookup failed for collation %u", collation); collform = (Form_pg_collation) GETSTRUCT(tp); collcollate = NameStr(collform->collcollate); collctype = NameStr(collform->collctype); cache_entry->collate_is_c = ((strcmp(collcollate, "C") == 0) || (strcmp(collcollate, "POSIX") == 0)); cache_entry->ctype_is_c = ((strcmp(collctype, "C") == 0) || (strcmp(collctype, "POSIX") == 0)); cache_entry->flags_valid = true; ReleaseSysCache(tp); } return cache_entry; } /* * Detect whether collation's LC_COLLATE property is C */ bool lc_collate_is_c(Oid collation) { /* * If we're asked about "collation 0", return false, so that the code will * go into the non-C path and report that the collation is bogus. */ if (!OidIsValid(collation)) return false; /* * If we're asked about the default collation, we have to inquire of the C * library. Cache the result so we only have to compute it once. */ if (collation == DEFAULT_COLLATION_OID) { static int result = -1; char *localeptr; if (result >= 0) return (bool) result; localeptr = setlocale(LC_COLLATE, NULL); if (!localeptr) elog(ERROR, "invalid LC_COLLATE setting"); if (strcmp(localeptr, "C") == 0) result = true; else if (strcmp(localeptr, "POSIX") == 0) result = true; else result = false; return (bool) result; } /* * If we're asked about the built-in C/POSIX collations, we know that. */ if (collation == C_COLLATION_OID || collation == POSIX_COLLATION_OID) return true; /* * Otherwise, we have to consult pg_collation, but we cache that. */ return (lookup_collation_cache(collation, true))->collate_is_c; } /* * Detect whether collation's LC_CTYPE property is C */ bool lc_ctype_is_c(Oid collation) { /* * If we're asked about "collation 0", return false, so that the code will * go into the non-C path and report that the collation is bogus. */ if (!OidIsValid(collation)) return false; /* * If we're asked about the default collation, we have to inquire of the C * library. Cache the result so we only have to compute it once. */ if (collation == DEFAULT_COLLATION_OID) { static int result = -1; char *localeptr; if (result >= 0) return (bool) result; localeptr = setlocale(LC_CTYPE, NULL); if (!localeptr) elog(ERROR, "invalid LC_CTYPE setting"); if (strcmp(localeptr, "C") == 0) result = true; else if (strcmp(localeptr, "POSIX") == 0) result = true; else result = false; return (bool) result; } /* * If we're asked about the built-in C/POSIX collations, we know that. */ if (collation == C_COLLATION_OID || collation == POSIX_COLLATION_OID) return true; /* * Otherwise, we have to consult pg_collation, but we cache that. */ return (lookup_collation_cache(collation, true))->ctype_is_c; } /* simple subroutine for reporting errors from newlocale() */ #ifdef HAVE_LOCALE_T static void report_newlocale_failure(const char *localename) { int save_errno; /* * Windows doesn't provide any useful error indication from * _create_locale(), and BSD-derived platforms don't seem to feel they * need to set errno either (even though POSIX is pretty clear that * newlocale should do so). So, if errno hasn't been set, assume ENOENT * is what to report. */ if (errno == 0) errno = ENOENT; /* * ENOENT means "no such locale", not "no such file", so clarify that * errno with an errdetail message. */ save_errno = errno; /* auxiliary funcs might change errno */ ereport(ERROR, (errcode(ERRCODE_INVALID_PARAMETER_VALUE), errmsg("could not create locale \"%s\": %m", localename), (save_errno == ENOENT ? errdetail("The operating system could not find any locale data for the locale name \"%s\".", localename) : 0))); } #endif /* HAVE_LOCALE_T */ /* * Create a locale_t from a collation OID. Results are cached for the * lifetime of the backend. Thus, do not free the result with freelocale(). * * As a special optimization, the default/database collation returns 0. * Callers should then revert to the non-locale_t-enabled code path. * In fact, they shouldn't call this function at all when they are dealing * with the default locale. That can save quite a bit in hotspots. * Also, callers should avoid calling this before going down a C/POSIX * fastpath, because such a fastpath should work even on platforms without * locale_t support in the C library. * * For simplicity, we always generate COLLATE + CTYPE even though we * might only need one of them. Since this is called only once per session, * it shouldn't cost much. */ pg_locale_t pg_newlocale_from_collation(Oid collid) { collation_cache_entry *cache_entry; /* Callers must pass a valid OID */ Assert(OidIsValid(collid)); /* Return 0 for "default" collation, just in case caller forgets */ if (collid == DEFAULT_COLLATION_OID) return (pg_locale_t) 0; cache_entry = lookup_collation_cache(collid, false); if (cache_entry->locale == 0) { /* We haven't computed this yet in this session, so do it */ HeapTuple tp; Form_pg_collation collform; const char *collcollate; const char *collctype pg_attribute_unused(); struct pg_locale_struct result; pg_locale_t resultp; Datum collversion; bool isnull; tp = SearchSysCache1(COLLOID, ObjectIdGetDatum(collid)); if (!HeapTupleIsValid(tp)) elog(ERROR, "cache lookup failed for collation %u", collid); collform = (Form_pg_collation) GETSTRUCT(tp); collcollate = NameStr(collform->collcollate); collctype = NameStr(collform->collctype); /* We'll fill in the result struct locally before allocating memory */ memset(&result, 0, sizeof(result)); result.provider = collform->collprovider; result.deterministic = collform->collisdeterministic; if (collform->collprovider == COLLPROVIDER_LIBC) { #ifdef HAVE_LOCALE_T locale_t loc; if (strcmp(collcollate, collctype) == 0) { /* Normal case where they're the same */ errno = 0; #ifndef WIN32 loc = newlocale(LC_COLLATE_MASK | LC_CTYPE_MASK, collcollate, NULL); #else loc = _create_locale(LC_ALL, collcollate); #endif if (!loc) report_newlocale_failure(collcollate); } else { #ifndef WIN32 /* We need two newlocale() steps */ locale_t loc1; errno = 0; loc1 = newlocale(LC_COLLATE_MASK, collcollate, NULL); if (!loc1) report_newlocale_failure(collcollate); errno = 0; loc = newlocale(LC_CTYPE_MASK, collctype, loc1); if (!loc) report_newlocale_failure(collctype); #else /* * XXX The _create_locale() API doesn't appear to support * this. Could perhaps be worked around by changing * pg_locale_t to contain two separate fields. */ ereport(ERROR, (errcode(ERRCODE_FEATURE_NOT_SUPPORTED), errmsg("collations with different collate and ctype values are not supported on this platform"))); #endif } result.info.lt = loc; #else /* not HAVE_LOCALE_T */ /* platform that doesn't support locale_t */ ereport(ERROR, (errcode(ERRCODE_FEATURE_NOT_SUPPORTED), errmsg("collation provider LIBC is not supported on this platform"))); #endif /* not HAVE_LOCALE_T */ } else if (collform->collprovider == COLLPROVIDER_ICU) { #ifdef USE_ICU UCollator *collator; UErrorCode status; if (strcmp(collcollate, collctype) != 0) ereport(ERROR, (errcode(ERRCODE_FEATURE_NOT_SUPPORTED), errmsg("collations with different collate and ctype values are not supported by ICU"))); status = U_ZERO_ERROR; collator = ucol_open(collcollate, &status); if (U_FAILURE(status)) ereport(ERROR, (errmsg("could not open collator for locale \"%s\": %s", collcollate, u_errorName(status)))); if (U_ICU_VERSION_MAJOR_NUM < 54) icu_set_collation_attributes(collator, collcollate); /* We will leak this string if we get an error below :-( */ result.info.icu.locale = MemoryContextStrdup(TopMemoryContext, collcollate); result.info.icu.ucol = collator; #else /* not USE_ICU */ /* could get here if a collation was created by a build with ICU */ ereport(ERROR, (errcode(ERRCODE_FEATURE_NOT_SUPPORTED), errmsg("ICU is not supported in this build"), \ errhint("You need to rebuild PostgreSQL using --with-icu."))); #endif /* not USE_ICU */ } collversion = SysCacheGetAttr(COLLOID, tp, Anum_pg_collation_collversion, &isnull); if (!isnull) { char *actual_versionstr; char *collversionstr; actual_versionstr = get_collation_actual_version(collform->collprovider, collcollate); if (!actual_versionstr) { /* * This could happen when specifying a version in CREATE * COLLATION for a libc locale, or manually creating a mess in * the catalogs. */ ereport(ERROR, (errmsg("collation \"%s\" has no actual version, but a version was specified", NameStr(collform->collname)))); } collversionstr = TextDatumGetCString(collversion); if (strcmp(actual_versionstr, collversionstr) != 0) ereport(WARNING, (errmsg("collation \"%s\" has version mismatch", NameStr(collform->collname)), errdetail("The collation in the database was created using version %s, " "but the operating system provides version %s.", collversionstr, actual_versionstr), errhint("Rebuild all objects affected by this collation and run " "ALTER COLLATION %s REFRESH VERSION, " "or build PostgreSQL with the right library version.", quote_qualified_identifier(get_namespace_name(collform->collnamespace), NameStr(collform->collname))))); } ReleaseSysCache(tp); /* We'll keep the pg_locale_t structures in TopMemoryContext */ resultp = MemoryContextAlloc(TopMemoryContext, sizeof(*resultp)); *resultp = result; cache_entry->locale = resultp; } return cache_entry->locale; } /* * Get provider-specific collation version string for the given collation from * the operating system/library. */ char * get_collation_actual_version(char collprovider, const char *collcollate) { char *collversion = NULL; #ifdef USE_ICU if (collprovider == COLLPROVIDER_ICU) { UCollator *collator; UErrorCode status; UVersionInfo versioninfo; char buf[U_MAX_VERSION_STRING_LENGTH]; status = U_ZERO_ERROR; collator = ucol_open(collcollate, &status); if (U_FAILURE(status)) ereport(ERROR, (errmsg("could not open collator for locale \"%s\": %s", collcollate, u_errorName(status)))); ucol_getVersion(collator, versioninfo); ucol_close(collator); u_versionToString(versioninfo, buf); collversion = pstrdup(buf); } else #endif if (collprovider == COLLPROVIDER_LIBC) { #if defined(__GLIBC__) char *copy = pstrdup(collcollate); char *copy_suffix = strstr(copy, "."); bool need_version = true; /* * Check for names like C.UTF-8 by chopping off the encoding suffix on * our temporary copy, so we can skip the version. */ if (copy_suffix) *copy_suffix = '\0'; if (pg_strcasecmp("c", copy) == 0 || pg_strcasecmp("posix", copy) == 0) need_version = false; pfree(copy); if (!need_version) return NULL; /* Use the glibc version because we don't have anything better. */ collversion = pstrdup(gnu_get_libc_version()); #elif defined(WIN32) && _WIN32_WINNT >= 0x0600 /* * If we are targeting Windows Vista and above, we can ask for a name * given a collation name (earlier versions required a location code * that we don't have). */ NLSVERSIONINFOEX version = {sizeof(NLSVERSIONINFOEX)}; WCHAR wide_collcollate[LOCALE_NAME_MAX_LENGTH]; /* These would be invalid arguments, but have no version. */ if (pg_strcasecmp("c", collcollate) == 0 || pg_strcasecmp("posix", collcollate) == 0) return NULL; /* For all other names, ask the OS. */ MultiByteToWideChar(CP_ACP, 0, collcollate, -1, wide_collcollate, LOCALE_NAME_MAX_LENGTH); if (!GetNLSVersionEx(COMPARE_STRING, wide_collcollate, &version)) { /* * GetNLSVersionEx() wants a language tag such as "en-US", not a * locale name like "English_United States.1252". Until those * values can be prevented from entering the system, or 100% * reliably converted to the more useful tag format, tolerate the * resulting error and report that we have no version data. */ if (GetLastError() == ERROR_INVALID_PARAMETER) return NULL; ereport(ERROR, (errmsg("could not get collation version for locale \"%s\": error code %lu", collcollate, GetLastError()))); } collversion = psprintf("%d.%d,%d.%d", (version.dwNLSVersion >> 8) & 0xFFFF, version.dwNLSVersion & 0xFF, (version.dwDefinedVersion >> 8) & 0xFFFF, version.dwDefinedVersion & 0xFF); #endif } return collversion; } #ifdef USE_ICU /* * Converter object for converting between ICU's UChar strings and C strings * in database encoding. Since the database encoding doesn't change, we only * need one of these per session. */ static UConverter *icu_converter = NULL; static void init_icu_converter(void) { const char *icu_encoding_name; UErrorCode status; UConverter *conv; if (icu_converter) return; /* already done */ icu_encoding_name = get_encoding_name_for_icu(GetDatabaseEncoding()); if (!icu_encoding_name) ereport(ERROR, (errcode(ERRCODE_FEATURE_NOT_SUPPORTED), errmsg("encoding \"%s\" not supported by ICU", pg_encoding_to_char(GetDatabaseEncoding())))); status = U_ZERO_ERROR; conv = ucnv_open(icu_encoding_name, &status); if (U_FAILURE(status)) ereport(ERROR, (errmsg("could not open ICU converter for encoding \"%s\": %s", icu_encoding_name, u_errorName(status)))); icu_converter = conv; } /* * Convert a string in the database encoding into a string of UChars. * * The source string at buff is of length nbytes * (it needn't be nul-terminated) * * *buff_uchar receives a pointer to the palloc'd result string, and * the function's result is the number of UChars generated. * * The result string is nul-terminated, though most callers rely on the * result length instead. */ int32_t icu_to_uchar(UChar **buff_uchar, const char *buff, size_t nbytes) { UErrorCode status; int32_t len_uchar; init_icu_converter(); status = U_ZERO_ERROR; len_uchar = ucnv_toUChars(icu_converter, NULL, 0, buff, nbytes, &status); if (U_FAILURE(status) && status != U_BUFFER_OVERFLOW_ERROR) ereport(ERROR, (errmsg("%s failed: %s", "ucnv_toUChars", u_errorName(status)))); *buff_uchar = palloc((len_uchar + 1) * sizeof(**buff_uchar)); status = U_ZERO_ERROR; len_uchar = ucnv_toUChars(icu_converter, *buff_uchar, len_uchar + 1, buff, nbytes, &status); if (U_FAILURE(status)) ereport(ERROR, (errmsg("%s failed: %s", "ucnv_toUChars", u_errorName(status)))); return len_uchar; } /* * Convert a string of UChars into the database encoding. * * The source string at buff_uchar is of length len_uchar * (it needn't be nul-terminated) * * *result receives a pointer to the palloc'd result string, and the * function's result is the number of bytes generated (not counting nul). * * The result string is nul-terminated. */ int32_t icu_from_uchar(char **result, const UChar *buff_uchar, int32_t len_uchar) { UErrorCode status; int32_t len_result; init_icu_converter(); status = U_ZERO_ERROR; len_result = ucnv_fromUChars(icu_converter, NULL, 0, buff_uchar, len_uchar, &status); if (U_FAILURE(status) && status != U_BUFFER_OVERFLOW_ERROR) ereport(ERROR, (errmsg("%s failed: %s", "ucnv_fromUChars", u_errorName(status)))); *result = palloc(len_result + 1); status = U_ZERO_ERROR; len_result = ucnv_fromUChars(icu_converter, *result, len_result + 1, buff_uchar, len_uchar, &status); if (U_FAILURE(status)) ereport(ERROR, (errmsg("%s failed: %s", "ucnv_fromUChars", u_errorName(status)))); return len_result; } /* * Parse collation attributes and apply them to the open collator. This takes * a string like "und@colStrength=primary;colCaseLevel=yes" and parses and * applies the key-value arguments. * * Starting with ICU version 54, the attributes are processed automatically by * ucol_open(), so this is only necessary for emulating this behavior on older * versions. */ pg_attribute_unused() static void icu_set_collation_attributes(UCollator *collator, const char *loc) { char *str = asc_tolower(loc, strlen(loc)); str = strchr(str, '@'); if (!str) return; str++; for (char *token = strtok(str, ";"); token; token = strtok(NULL, ";")) { char *e = strchr(token, '='); if (e) { char *name; char *value; UColAttribute uattr; UColAttributeValue uvalue; UErrorCode status; status = U_ZERO_ERROR; *e = '\0'; name = token; value = e + 1; /* * See attribute name and value lists in ICU i18n/coll.cpp */ if (strcmp(name, "colstrength") == 0) uattr = UCOL_STRENGTH; else if (strcmp(name, "colbackwards") == 0) uattr = UCOL_FRENCH_COLLATION; else if (strcmp(name, "colcaselevel") == 0) uattr = UCOL_CASE_LEVEL; else if (strcmp(name, "colcasefirst") == 0) uattr = UCOL_CASE_FIRST; else if (strcmp(name, "colalternate") == 0) uattr = UCOL_ALTERNATE_HANDLING; else if (strcmp(name, "colnormalization") == 0) uattr = UCOL_NORMALIZATION_MODE; else if (strcmp(name, "colnumeric") == 0) uattr = UCOL_NUMERIC_COLLATION; else /* ignore if unknown */ continue; if (strcmp(value, "primary") == 0) uvalue = UCOL_PRIMARY; else if (strcmp(value, "secondary") == 0) uvalue = UCOL_SECONDARY; else if (strcmp(value, "tertiary") == 0) uvalue = UCOL_TERTIARY; else if (strcmp(value, "quaternary") == 0) uvalue = UCOL_QUATERNARY; else if (strcmp(value, "identical") == 0) uvalue = UCOL_IDENTICAL; else if (strcmp(value, "no") == 0) uvalue = UCOL_OFF; else if (strcmp(value, "yes") == 0) uvalue = UCOL_ON; else if (strcmp(value, "shifted") == 0) uvalue = UCOL_SHIFTED; else if (strcmp(value, "non-ignorable") == 0) uvalue = UCOL_NON_IGNORABLE; else if (strcmp(value, "lower") == 0) uvalue = UCOL_LOWER_FIRST; else if (strcmp(value, "upper") == 0) uvalue = UCOL_UPPER_FIRST; else status = U_ILLEGAL_ARGUMENT_ERROR; if (status == U_ZERO_ERROR) ucol_setAttribute(collator, uattr, uvalue, &status); /* * Pretend the error came from ucol_open(), for consistent error * message across ICU versions. */ if (U_FAILURE(status)) ereport(ERROR, (errmsg("could not open collator for locale \"%s\": %s", loc, u_errorName(status)))); } } } #endif /* USE_ICU */ /* * These functions convert from/to libc's wchar_t, *not* pg_wchar_t. * Therefore we keep them here rather than with the mbutils code. */ /* * wchar2char --- convert wide characters to multibyte format * * This has the same API as the standard wcstombs_l() function; in particular, * tolen is the maximum number of bytes to store at *to, and *from must be * zero-terminated. The output will be zero-terminated iff there is room. */ size_t wchar2char(char *to, const wchar_t *from, size_t tolen, pg_locale_t locale) { size_t result; Assert(!locale || locale->provider == COLLPROVIDER_LIBC); if (tolen == 0) return 0; #ifdef WIN32 /* * On Windows, the "Unicode" locales assume UTF16 not UTF8 encoding, and * for some reason mbstowcs and wcstombs won't do this for us, so we use * MultiByteToWideChar(). */ if (GetDatabaseEncoding() == PG_UTF8) { result = WideCharToMultiByte(CP_UTF8, 0, from, -1, to, tolen, NULL, NULL); /* A zero return is failure */ if (result <= 0) result = -1; else { Assert(result <= tolen); /* Microsoft counts the zero terminator in the result */ result--; } } else #endif /* WIN32 */ if (locale == (pg_locale_t) 0) { /* Use wcstombs directly for the default locale */ result = wcstombs(to, from, tolen); } else { #ifdef HAVE_LOCALE_T #ifdef HAVE_WCSTOMBS_L /* Use wcstombs_l for nondefault locales */ result = wcstombs_l(to, from, tolen, locale->info.lt); #else /* !HAVE_WCSTOMBS_L */ /* We have to temporarily set the locale as current ... ugh */ locale_t save_locale = uselocale(locale->info.lt); result = wcstombs(to, from, tolen); uselocale(save_locale); #endif /* HAVE_WCSTOMBS_L */ #else /* !HAVE_LOCALE_T */ /* Can't have locale != 0 without HAVE_LOCALE_T */ elog(ERROR, "wcstombs_l is not available"); result = 0; /* keep compiler quiet */ #endif /* HAVE_LOCALE_T */ } return result; } /* * char2wchar --- convert multibyte characters to wide characters * * This has almost the API of mbstowcs_l(), except that *from need not be * null-terminated; instead, the number of input bytes is specified as * fromlen. Also, we ereport() rather than returning -1 for invalid * input encoding. tolen is the maximum number of wchar_t's to store at *to. * The output will be zero-terminated iff there is room. */ size_t char2wchar(wchar_t *to, size_t tolen, const char *from, size_t fromlen, pg_locale_t locale) { size_t result; Assert(!locale || locale->provider == COLLPROVIDER_LIBC); if (tolen == 0) return 0; #ifdef WIN32 /* See WIN32 "Unicode" comment above */ if (GetDatabaseEncoding() == PG_UTF8) { /* Win32 API does not work for zero-length input */ if (fromlen == 0) result = 0; else { result = MultiByteToWideChar(CP_UTF8, 0, from, fromlen, to, tolen - 1); /* A zero return is failure */ if (result == 0) result = -1; } if (result != -1) { Assert(result < tolen); /* Append trailing null wchar (MultiByteToWideChar() does not) */ to[result] = 0; } } else #endif /* WIN32 */ { /* mbstowcs requires ending '\0' */ char *str = pnstrdup(from, fromlen); if (locale == (pg_locale_t) 0) { /* Use mbstowcs directly for the default locale */ result = mbstowcs(to, str, tolen); } else { #ifdef HAVE_LOCALE_T #ifdef HAVE_MBSTOWCS_L /* Use mbstowcs_l for nondefault locales */ result = mbstowcs_l(to, str, tolen, locale->info.lt); #else /* !HAVE_MBSTOWCS_L */ /* We have to temporarily set the locale as current ... ugh */ locale_t save_locale = uselocale(locale->info.lt); result = mbstowcs(to, str, tolen); uselocale(save_locale); #endif /* HAVE_MBSTOWCS_L */ #else /* !HAVE_LOCALE_T */ /* Can't have locale != 0 without HAVE_LOCALE_T */ elog(ERROR, "mbstowcs_l is not available"); result = 0; /* keep compiler quiet */ #endif /* HAVE_LOCALE_T */ } pfree(str); } if (result == -1) { /* * Invalid multibyte character encountered. We try to give a useful * error message by letting pg_verifymbstr check the string. But it's * possible that the string is OK to us, and not OK to mbstowcs --- * this suggests that the LC_CTYPE locale is different from the * database encoding. Give a generic error message if pg_verifymbstr * can't find anything wrong. */ pg_verifymbstr(from, fromlen, false); /* might not return */ /* but if it does ... */ ereport(ERROR, (errcode(ERRCODE_CHARACTER_NOT_IN_REPERTOIRE), errmsg("invalid multibyte character for locale"), errhint("The server's LC_CTYPE locale is probably incompatible with the database encoding."))); } return result; }