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1222 1223 1224 1225 1226 1227 1228 1229 1230 1231 1232 1233 1234 1235 1236 1237 1238 1239 1240 1241 1242 1243 1244 1245 1246 1247 1248 1249 1250 1251 1252 1253 1254 1255 1256 1257 1258 1259 1260 1261 1262 1263 1264 1265 1266 1267 1268 1269 1270 1271 1272 1273 1274 1275 1276 1277 1278 1279 1280 1281 1282 1283 1284 1285 1286 1287 1288 1289 1290 1291 1292 1293 1294 1295 1296 1297 1298 1299 1300 1301 1302 1303 1304 1305 1306 1307 1308 1309 1310 1311 1312 1313 1314 1315 1316 1317 1318 1319 1320 1321 1322 1323 1324 1325 1326 1327 1328 1329 1330 1331 1332 1333 1334 1335 1336 1337 1338 1339 1340 1341 1342 1343 1344 1345 1346 1347 1348 1349 1350 1351 1352 1353 1354 1355 1356 1357 1358 1359 1360 1361 1362 1363 1364 1365 1366 1367 1368 1369 1370 1371 1372 1373 1374 1375 1376 1377 1378 1379 1380 1381 1382 1383 1384 1385 1386 1387 | /* Copyright (C) 2002 Manuel Novoa III * * This library is free software; you can redistribute it and/or * modify it under the terms of the GNU Library General Public * License as published by the Free Software Foundation; either * version 2 of the License, or (at your option) any later version. * * This library is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * Library General Public License for more details. * * You should have received a copy of the GNU Library General Public * License along with this library; if not, see * <http://www.gnu.org/licenses/>. */ /* Nov. 1, 2002 * Reworked setlocale() return values and locale arg processing to * be more like glibc. Applications expecting to be able to * query locale settings should now work... at the cost of almost * doubling the size of the setlocale object code. * Fixed a bug in the internal fixed-size-string locale specifier code. * * Dec 20, 2002 * Added in collation support and updated stub nl_langinfo. * * Aug 1, 2003 * Added glibc-like extended locale stuff (newlocale, duplocale, etc). * * Aug 18, 2003 * Bug in duplocale... collation data wasn't copied. * Bug in newlocale... translate 1<<LC_ALL to LC_ALL_MASK. * Bug in _wchar_utf8sntowcs... fix cut-n-paste error. * * Aug 31, 2003 * Hack around bg_BG bug; grouping specified but no thousands separator. * Also, disable the locale link_warnings for now, as they generate a * lot of noise when using libstd++. */ /* TODO: * Implement the shared mmap code so non-mmu platforms can use this. * Add some basic collate functionality similar to what the previous * locale support had (8-bit codesets only). */ #define __CTYPE_HAS_8_BIT_LOCALES 1 #include <string.h> #include <stdlib.h> #include <stddef.h> #include <limits.h> #include <stdint.h> #include <assert.h> #include <errno.h> #include <ctype.h> #include <stdio.h> #undef __LOCALE_C_ONLY #ifndef __UCLIBC_HAS_LOCALE__ #define __LOCALE_C_ONLY #endif /* __UCLIBC_HAS_LOCALE__ */ #ifdef __LOCALE_C_ONLY #include <locale.h> #else /* __LOCALE_C_ONLY */ /* Need to include this before locale.h! */ #include <bits/uClibc_locale.h> #undef CODESET_LIST #define CODESET_LIST (__locale_mmap->codeset_list) #ifdef __UCLIBC_HAS_XLOCALE__ #include <locale.h> #else /* __UCLIBC_HAS_XLOCALE__ */ /* We need this internally... */ #define __UCLIBC_HAS_XLOCALE__ 1 #include <locale.h> #undef __UCLIBC_HAS_XLOCALE__ #endif /* __UCLIBC_HAS_XLOCALE__ */ #include <wchar.h> #define LOCALE_NAMES (__locale_mmap->locale_names5) #define LOCALES (__locale_mmap->locales) #define LOCALE_AT_MODIFIERS (__locale_mmap->locale_at_modifiers) #define CATEGORY_NAMES (__locale_mmap->lc_names) #define MAX_LOCALE_STR 256 /* TODO: Only sufficient for current case. */ #define MAX_LOCALE_CATEGORY_STR 32 /* TODO: Only sufficient for current case. */ /* Note: Best if MAX_LOCALE_CATEGORY_STR is a power of 2. */ extern int _locale_set_l(const unsigned char *p, __locale_t base) attribute_hidden; extern void _locale_init_l(__locale_t base) attribute_hidden; #endif /* __LOCALE_C_ONLY */ #undef LOCALE_STRING_SIZE #define LOCALE_SELECTOR_SIZE (2 * __LC_ALL + 2) #define C_LOCALE_SELECTOR "\x23\x80\x80\x80\x80\x80\x80\x80\x80\x80\x80\x80\x80" #include <langinfo.h> #include <nl_types.h> /**********************************************************************/ #ifdef L_setlocale #ifdef __LOCALE_C_ONLY static const char C_string[] = "C"; char *setlocale(int category, register const char *locale) { return ( (((unsigned int)(category)) <= LC_ALL) && ( (!locale) /* Request for locale category string. */ || (!*locale) /* Implementation-defined default is C. */ || ((*locale == 'C') && !locale[1]) || (!strcmp(locale, "POSIX"))) ) ? (char *) C_string /* Always in C/POSIX locale. */ : NULL; } #else /* ---------------------------------------------- __LOCALE_C_ONLY */ #if !defined(__LOCALE_DATA_NUM_LOCALES) || (__LOCALE_DATA_NUM_LOCALES <= 1) #error locales enabled, but not data other than for C locale! #endif static const char posix[] = "POSIX"; static const char utf8[] = "UTF-8"; /* Individual category strings start at hr_locale + category * MAX_LOCALE_CATEGORY. * This holds for LC_ALL as well. */ static char hr_locale[(MAX_LOCALE_CATEGORY_STR * LC_ALL) + MAX_LOCALE_STR]; static void update_hr_locale(const unsigned char *spec) { const unsigned char *loc; const unsigned char *s; char *n; int i, category, done; done = category = 0; do { s = spec + 1; n = hr_locale + category * MAX_LOCALE_CATEGORY_STR; if (category == LC_ALL) { done = 1; for (i = 0 ; i < LC_ALL-1 ; i += 2) { if ((s[i] != s[i+2]) || (s[i+1] != s[i+3])) { goto SKIP; } } /* All categories the same, so simplify string by using a single * category. */ category = LC_CTYPE; } SKIP: i = (category == LC_ALL) ? 0 : category; s += 2*i; do { if ((*s != 0xff) || (s[1] != 0xff)) { loc = LOCALES + __LOCALE_DATA_WIDTH_LOCALES * ((((int)(*s & 0x7f)) << 7) + (s[1] & 0x7f)); if (category == LC_ALL) { /* CATEGORY_NAMES is unsigned char* */ n = stpcpy(n, (char*) CATEGORY_NAMES + (int) CATEGORY_NAMES[i]); *n++ = '='; } if (*loc == 0) { *n++ = 'C'; *n = 0; } else { char at = 0; memcpy(n, LOCALE_NAMES + 5*((*loc)-1), 5); if (n[2] != '_') { at = n[2]; n[2] = '_'; } n += 5; *n++ = '.'; if (loc[2] == 2) { n = stpcpy(n, utf8); } else if (loc[2] >= 3) { n = stpcpy(n, (char*) CODESET_LIST + (int)(CODESET_LIST[loc[2] - 3])); } if (at) { const char *q; *n++ = '@'; q = (char*) LOCALE_AT_MODIFIERS; do { if (q[1] == at) { n = stpcpy(n, q+2); break; } q += 2 + *q; } while (*q); } } *n++ = ';'; } s += 2; } while (++i < category); *--n = 0; /* Remove trailing ';' and nul-terminate. */ ++category; } while (!done); } char *setlocale(int category, const char *locale) { if (((unsigned int)(category)) > LC_ALL) { #if 0 __set_errno(EINVAL); /* glibc sets errno -- SUSv3 doesn't say. */ #endif return NULL; /* Illegal/unsupported category. */ } if (locale != NULL) { /* Not just a query... */ if (!newlocale((1 << category), locale, __global_locale)) { return NULL; /* Failed! */ } update_hr_locale(__global_locale->cur_locale); } /* Either a query or a successful set, so return current locale string. */ return hr_locale + (category * MAX_LOCALE_CATEGORY_STR); } #endif /* __LOCALE_C_ONLY */ #endif /**********************************************************************/ #ifdef L_localeconv /* Note: We assume here that the compiler does the sane thing regarding * placement of the fields in the struct. If necessary, we could ensure * this usings an array of offsets but at some size cost. */ #ifdef __LOCALE_C_ONLY static struct lconv the_lconv; static const char decpt[] = "."; struct lconv *localeconv(void) { register char *p = (char *)(&the_lconv); *((char **)p) = (char *) decpt; do { p += sizeof(char **); *((char **)p) = (char *) (decpt+1); } while (p < (char *) &the_lconv.negative_sign); p = (&the_lconv.int_frac_digits); do { *p = CHAR_MAX; ++p; } while (p <= &the_lconv.int_n_sign_posn); return &the_lconv; } #else /* __LOCALE_C_ONLY */ static struct lconv the_lconv; struct lconv *localeconv(void) { register char *p = (char *) &the_lconv; register char **q = (char **) &(__UCLIBC_CURLOCALE->decimal_point); do { *((char **)p) = *q; p += sizeof(char **); ++q; } while (p < &the_lconv.int_frac_digits); do { *p = **q; ++p; ++q; } while (p <= &the_lconv.int_n_sign_posn); return &the_lconv; } #endif /* __LOCALE_C_ONLY */ libc_hidden_def(localeconv) #endif /**********************************************************************/ #if defined(L__locale_init) && !defined(__LOCALE_C_ONLY) struct __uclibc_locale_struct __global_locale_data; __locale_t __global_locale = &__global_locale_data; #ifdef __UCLIBC_HAS_XLOCALE__ __locale_t __curlocale_var = &__global_locale_data; #endif /*----------------------------------------------------------------------*/ static const char utf8[] = "UTF-8"; static const char ascii[] = "ASCII"; typedef struct { uint16_t num_base; uint16_t num_der; uint16_t MAX_WEIGHTS; uint16_t num_index2weight; #define num_index2ruleidx num_index2weight uint16_t num_weightstr; uint16_t num_multistart; uint16_t num_override; uint16_t num_ruletable; } coldata_header_t; typedef struct { uint16_t num_weights; uint16_t num_starters; uint16_t ii_shift; uint16_t ti_shift; uint16_t ii_len; uint16_t ti_len; uint16_t max_weight; uint16_t num_col_base; uint16_t max_col_index; uint16_t undefined_idx; uint16_t range_low; uint16_t range_count; uint16_t range_base_weight; uint16_t range_rule_offset; uint16_t index2weight_offset; uint16_t index2ruleidx_offset; uint16_t multistart_offset; uint16_t wcs2colidt_offset_low; uint16_t wcs2colidt_offset_hi; } coldata_base_t; typedef struct { uint16_t base_idx; uint16_t undefined_idx; uint16_t overrides_offset; uint16_t multistart_offset; } coldata_der_t; static int init_cur_collate(int der_num, __collate_t *cur_collate) { const uint16_t *__locale_collate_tbl = __locale_mmap->collate_data; coldata_header_t *cdh; coldata_base_t *cdb; coldata_der_t *cdd; const uint16_t *p; size_t n; uint16_t i, w; #if 0 assert(sizeof(coldata_base_t) == 19*2); assert(sizeof(coldata_der_t) == 4*2); assert(sizeof(coldata_header_t) == 8*2); #endif if (!der_num) { /* C locale... special */ cur_collate->num_weights = 0; return 1; } --der_num; cdh = (coldata_header_t *) __locale_collate_tbl; #if 0 if (der_num >= cdh->num_der) { return 0; } #else assert((der_num < cdh->num_der)); #endif cdd = (coldata_der_t *)(__locale_collate_tbl + (sizeof(coldata_header_t) + cdh->num_base * sizeof(coldata_base_t) + der_num * sizeof(coldata_der_t) )/2 ); cdb = (coldata_base_t *)(__locale_collate_tbl + (sizeof(coldata_header_t) + cdd->base_idx * sizeof(coldata_base_t) )/2 ); memcpy(cur_collate, cdb, offsetof(coldata_base_t,index2weight_offset)); cur_collate->undefined_idx = cdd->undefined_idx; cur_collate->ti_mask = (1 << cur_collate->ti_shift)-1; cur_collate->ii_mask = (1 << cur_collate->ii_shift)-1; /* fflush(stdout); */ /* fprintf(stderr,"base=%d num_col_base: %d %d\n", cdd->base_idx ,cur_collate->num_col_base, cdb->num_col_base); */ n = (sizeof(coldata_header_t) + cdh->num_base * sizeof(coldata_base_t) + cdh->num_der * sizeof(coldata_der_t))/2; /* fprintf(stderr,"n = %d\n", n); */ cur_collate->index2weight_tbl = __locale_collate_tbl + n + cdb->index2weight_offset; /* fprintf(stderr,"i2w = %d\n", n + cdb->index2weight_offset); */ n += cdh->num_index2weight; cur_collate->index2ruleidx_tbl = __locale_collate_tbl + n + cdb->index2ruleidx_offset; /* fprintf(stderr,"i2r = %d\n", n + cdb->index2ruleidx_offset); */ n += cdh->num_index2ruleidx; cur_collate->multistart_tbl = __locale_collate_tbl + n + cdd->multistart_offset; /* fprintf(stderr,"mts = %d\n", n + cdb->multistart_offset); */ n += cdh->num_multistart; cur_collate->overrides_tbl = __locale_collate_tbl + n + cdd->overrides_offset; /* fprintf(stderr,"ovr = %d\n", n + cdd->overrides_offset); */ n += cdh->num_override; cur_collate->ruletable = __locale_collate_tbl + n; /* fprintf(stderr, "rtb = %d\n", n); */ n += cdh->num_ruletable; cur_collate->weightstr = __locale_collate_tbl + n; /* fprintf(stderr,"wts = %d\n", n); */ n += cdh->num_weightstr; cur_collate->wcs2colidt_tbl = __locale_collate_tbl + n + (((unsigned long)(cdb->wcs2colidt_offset_hi)) << 16) + cdb->wcs2colidt_offset_low; /* fprintf(stderr,"wcs = %lu\n", n + (((unsigned long)(cdb->wcs2colidt_offset_hi)) << 16) */ /* + cdb->wcs2colidt_offset_low); */ cur_collate->MAX_WEIGHTS = cdh->MAX_WEIGHTS; cur_collate->index2weight = calloc(2*cur_collate->max_col_index+2, sizeof(uint16_t)); if (!cur_collate->index2weight) { return 0; } cur_collate->index2ruleidx = cur_collate->index2weight + cur_collate->max_col_index + 1; memcpy(cur_collate->index2weight, cur_collate->index2weight_tbl, cur_collate->num_col_base * sizeof(uint16_t)); memcpy(cur_collate->index2ruleidx, cur_collate->index2ruleidx_tbl, cur_collate->num_col_base * sizeof(uint16_t)); /* now do the overrides */ p = cur_collate->overrides_tbl; while (*p > 1) { /* fprintf(stderr, "processing override -- count = %d\n", *p); */ n = *p++; w = *p++; do { i = *p++; /* fprintf(stderr, " i=%d (%#x) w=%d *p=%d\n", i, i, w, *p); */ cur_collate->index2weight[i-1] = w++; cur_collate->index2ruleidx[i-1] = *p++; } while (--n); } assert(*p == 1); while (*++p) { i = *p; /* fprintf(stderr, " i=%d (%#x) w=%d *p=%d\n", i, i, p[1], p[2]); */ cur_collate->index2weight[i-1] = *++p; cur_collate->index2ruleidx[i-1] = *++p; } for (i=0 ; i < cur_collate->multistart_tbl[0] ; i++) { p = cur_collate->multistart_tbl; /* fprintf(stderr, "%2d of %2d: %d ", i, cur_collate->multistart_tbl[0], p[i]); */ p += p[i]; do { n = *p++; do { if (!*p) { /* found it */ /* fprintf(stderr, "found: n=%d (%#lx) |%.*ls|\n", n, (int) *cs->s, n, cs->s); */ /* fprintf(stderr, ": %d - single\n", n); */ goto FOUND; } /* the lookup check here is safe since we're assured that *p is a valid colidex */ /* fprintf(stderr, "lookup(%lc)==%d *p==%d\n", cs->s[n], lookup(cs->s[n]), (int) *p); */ /* fprintf(stderr, ": %d - ", n); */ do { /* fprintf(stderr, "%d|", *p); */ } while (*p++); break; } while (1); } while (1); FOUND: continue; } return 1; } int attribute_hidden _locale_set_l(const unsigned char *p, __locale_t base) { const char **x; unsigned char *s = base->cur_locale + 1; const size_t *stp; const unsigned char *r; const uint16_t *io; const uint16_t *ii; const unsigned char *d; int row; /* locale row */ int crow; /* category row */ int len; int c; int i = 0; __collate_t newcol; ++p; newcol.index2weight = NULL; if ((p[2*LC_COLLATE] != s[2*LC_COLLATE]) || (p[2*LC_COLLATE + 1] != s[2*LC_COLLATE + 1]) ) { row = (((int)(*p & 0x7f)) << 7) + (p[1] & 0x7f); assert(row < __LOCALE_DATA_NUM_LOCALES); if (!init_cur_collate(__locale_mmap->locales[ __LOCALE_DATA_WIDTH_LOCALES * row + 3 + LC_COLLATE ], &newcol) ) { return 0; /* calloc failed. */ } free(base->collate.index2weight); memcpy(&base->collate, &newcol, sizeof(__collate_t)); } do { if ((*p != *s) || (p[1] != s[1])) { row = (((int)(*p & 0x7f)) << 7) + (p[1] & 0x7f); assert(row < __LOCALE_DATA_NUM_LOCALES); *s = *p; s[1] = p[1]; if ((i != LC_COLLATE) && ((len = __locale_mmap->lc_common_item_offsets_LEN[i]) != 0) ) { crow = __locale_mmap->locales[ __LOCALE_DATA_WIDTH_LOCALES * row + 3 + i ] * len; x = (const char **)(((char *) base) + base->category_offsets[i]); stp = __locale_mmap->lc_common_tbl_offsets + 4*i; r = (const unsigned char *)( ((char *)__locale_mmap) + *stp ); io = (const uint16_t *)( ((char *)__locale_mmap) + *++stp ); ii = (const uint16_t *)( ((char *)__locale_mmap) + *++stp ); d = (const unsigned char *)( ((char *)__locale_mmap) + *++stp ); for (c = 0; c < len; c++) { x[c] = (char*)(d + ii[r[crow + c] + io[c]]); } } if (i == LC_CTYPE) { c = __locale_mmap->locales[ __LOCALE_DATA_WIDTH_LOCALES * row + 2 ]; /* codeset */ if (c <= 2) { if (c == 2) { base->codeset = utf8; base->encoding = __ctype_encoding_utf8; /* TODO - fix for bcc */ base->mb_cur_max = 6; } else { assert(c == 1); base->codeset = ascii; base->encoding = __ctype_encoding_7_bit; base->mb_cur_max = 1; } } else { const __codeset_8_bit_t *c8b; r = CODESET_LIST; c -= 3; base->codeset = (char *) (r + r[c]); base->encoding = __ctype_encoding_8_bit; /* TODO - update when translit implemented! */ base->mb_cur_max = 1; c8b = __locale_mmap->codeset_8_bit + c; #ifdef __CTYPE_HAS_8_BIT_LOCALES base->idx8ctype = c8b->idx8ctype; base->idx8uplow = c8b->idx8uplow; #ifdef __UCLIBC_HAS_WCHAR__ base->idx8c2wc = c8b->idx8c2wc; base->idx8wc2c = c8b->idx8wc2c; /* translit */ #endif /* __UCLIBC_HAS_WCHAR__ */ /* What follows is fairly bloated, but it is just a hack * to get the 8-bit codeset ctype stuff functioning. * All of this will be replaced in the next generation * of locale support anyway... */ memcpy(base->__ctype_b_data, __C_ctype_b - __UCLIBC_CTYPE_B_TBL_OFFSET, (256 + __UCLIBC_CTYPE_B_TBL_OFFSET) * sizeof(__ctype_mask_t)); memcpy(base->__ctype_tolower_data, __C_ctype_tolower - __UCLIBC_CTYPE_TO_TBL_OFFSET, (256 + __UCLIBC_CTYPE_TO_TBL_OFFSET) * sizeof(__ctype_touplow_t)); memcpy(base->__ctype_toupper_data, __C_ctype_toupper - __UCLIBC_CTYPE_TO_TBL_OFFSET, (256 + __UCLIBC_CTYPE_TO_TBL_OFFSET) * sizeof(__ctype_touplow_t)); #define Cctype_TBL_MASK ((1 << __LOCALE_DATA_Cctype_IDX_SHIFT) - 1) #define Cctype_IDX_OFFSET (128 >> __LOCALE_DATA_Cctype_IDX_SHIFT) { int u; __ctype_mask_t m; for (u=0 ; u < 128 ; u++) { #ifdef __LOCALE_DATA_Cctype_PACKED c = base->tbl8ctype [ ((int)(c8b->idx8ctype [(u >> __LOCALE_DATA_Cctype_IDX_SHIFT) ]) << (__LOCALE_DATA_Cctype_IDX_SHIFT - 1)) + ((u & Cctype_TBL_MASK) >> 1)]; c = (u & 1) ? (c >> 4) : (c & 0xf); #else c = base->tbl8ctype [ ((int)(c8b->idx8ctype [(u >> __LOCALE_DATA_Cctype_IDX_SHIFT) ]) << __LOCALE_DATA_Cctype_IDX_SHIFT) + (u & Cctype_TBL_MASK) ]; #endif m = base->code2flag[c]; base->__ctype_b_data [128 + __UCLIBC_CTYPE_B_TBL_OFFSET + u] = m; #ifdef __UCLIBC_HAS_CTYPE_SIGNED__ if (((signed char)(128 + u)) != -1) { base->__ctype_b_data[__UCLIBC_CTYPE_B_TBL_OFFSET + ((signed char)(128 + u))] = m; } #endif base->__ctype_tolower_data [128 + __UCLIBC_CTYPE_TO_TBL_OFFSET + u] = 128 + u; base->__ctype_toupper_data [128 + __UCLIBC_CTYPE_TO_TBL_OFFSET + u] = 128 + u; if (m & (_ISlower|_ISupper)) { c = base->tbl8uplow [ ((int)(c8b->idx8uplow [u >> __LOCALE_DATA_Cuplow_IDX_SHIFT]) << __LOCALE_DATA_Cuplow_IDX_SHIFT) + ((128 + u) & ((1 << __LOCALE_DATA_Cuplow_IDX_SHIFT) - 1)) ]; if (m & _ISlower) { base->__ctype_toupper_data [128 + __UCLIBC_CTYPE_TO_TBL_OFFSET + u] = (unsigned char)(128 + u + c); #ifdef __UCLIBC_HAS_CTYPE_SIGNED__ if (((signed char)(128 + u)) != -1) { base->__ctype_toupper_data [__UCLIBC_CTYPE_TO_TBL_OFFSET + ((signed char)(128 + u))] = (unsigned char)(128 + u + c); } #endif } else { base->__ctype_tolower_data [128 + __UCLIBC_CTYPE_TO_TBL_OFFSET + u] = (unsigned char)(128 + u - c); #ifdef __UCLIBC_HAS_CTYPE_SIGNED__ if (((signed char)(128 + u)) != -1) { base->__ctype_tolower_data [__UCLIBC_CTYPE_TO_TBL_OFFSET + ((signed char)(128 + u))] = (unsigned char)(128 + u - c); } #endif } } } } #ifdef __UCLIBC_HAS_XLOCALE__ base->__ctype_b = base->__ctype_b_data + __UCLIBC_CTYPE_B_TBL_OFFSET; base->__ctype_tolower = base->__ctype_tolower_data + __UCLIBC_CTYPE_TO_TBL_OFFSET; base->__ctype_toupper = base->__ctype_toupper_data + __UCLIBC_CTYPE_TO_TBL_OFFSET; #else /* __UCLIBC_HAS_XLOCALE__ */ __ctype_b = base->__ctype_b_data + __UCLIBC_CTYPE_B_TBL_OFFSET; __ctype_tolower = base->__ctype_tolower_data + __UCLIBC_CTYPE_TO_TBL_OFFSET; __ctype_toupper = base->__ctype_toupper_data + __UCLIBC_CTYPE_TO_TBL_OFFSET; #endif /* __UCLIBC_HAS_XLOCALE__ */ #endif /* __CTYPE_HAS_8_BIT_LOCALES */ } d = base->outdigit_length; x = &base->outdigit0_mb; for (c = 0 ; c < 10 ; c++) { ((unsigned char *)d)[c] = strlen(x[c]); assert(d[c] > 0); } } else if (i == LC_NUMERIC) { assert(LC_NUMERIC > LC_CTYPE); /* Need ctype initialized. */ base->decimal_point_len = __locale_mbrtowc_l(&base->decimal_point_wc, base->decimal_point, base); assert(base->decimal_point_len > 0); assert(base->decimal_point[base->decimal_point_len] == 0); if (*base->grouping) { base->thousands_sep_len = __locale_mbrtowc_l(&base->thousands_sep_wc, base->thousands_sep, base); #if 1 assert(base->thousands_sep_len >= 0); if (base->thousands_sep_len == 0) { base->grouping = base->thousands_sep; /* empty string */ } assert(base->thousands_sep[base->thousands_sep_len] == 0); #else assert(base->thousands_sep_len > 0); assert(base->thousands_sep[base->thousands_sep_len] == 0); #endif } /* } else if (i == LC_COLLATE) { */ /* init_cur_collate(__locale_mmap->locales[ __LOCALE_DATA_WIDTH_LOCALES */ /* * row + 3 + i ], */ /* &base->collate); */ } } ++i; p += 2; s += 2; } while (i < LC_ALL); return 1; } static const uint16_t __code2flag[16] = { 0, /* unclassified = 0 */ _ISprint|_ISgraph|_ISalnum|_ISalpha, /* alpha_nonupper_nonlower */ _ISprint|_ISgraph|_ISalnum|_ISalpha|_ISlower, /* alpha_lower */ _ISprint|_ISgraph|_ISalnum|_ISalpha|_ISlower|_ISupper, /* alpha_upper_lower */ _ISprint|_ISgraph|_ISalnum|_ISalpha|_ISupper, /* alpha_upper */ _ISprint|_ISgraph|_ISalnum|_ISdigit, /* digit */ _ISprint|_ISgraph|_ISpunct, /* punct */ _ISprint|_ISgraph, /* graph */ _ISprint|_ISspace, /* print_space_nonblank */ _ISprint|_ISspace|_ISblank, /* print_space_blank */ _ISspace, /* space_nonblank_noncntrl */ _ISspace|_ISblank, /* space_blank_noncntrl */ _IScntrl|_ISspace, /* cntrl_space_nonblank */ _IScntrl|_ISspace|_ISblank, /* cntrl_space_blank */ _IScntrl /* cntrl_nonspace */ }; void attribute_hidden _locale_init_l(__locale_t base) { memset(base->cur_locale, 0, LOCALE_SELECTOR_SIZE); base->cur_locale[0] = '#'; memcpy(base->category_item_count, __locale_mmap->lc_common_item_offsets_LEN, LC_ALL); ++base->category_item_count[0]; /* Increment for codeset entry. */ base->category_offsets[0] = offsetof(struct __uclibc_locale_struct, outdigit0_mb); base->category_offsets[1] = offsetof(struct __uclibc_locale_struct, decimal_point); base->category_offsets[2] = offsetof(struct __uclibc_locale_struct, int_curr_symbol); base->category_offsets[3] = offsetof(struct __uclibc_locale_struct, abday_1); /* base->category_offsets[4] = offsetof(struct __uclibc_locale_struct, collate???); */ base->category_offsets[5] = offsetof(struct __uclibc_locale_struct, yesexpr); #ifdef __CTYPE_HAS_8_BIT_LOCALES base->tbl8ctype = (const unsigned char *) &__locale_mmap->tbl8ctype; base->tbl8uplow = (const unsigned char *) &__locale_mmap->tbl8uplow; #ifdef __UCLIBC_HAS_WCHAR__ base->tbl8c2wc = (const uint16_t *) &__locale_mmap->tbl8c2wc; base->tbl8wc2c = (const unsigned char *) &__locale_mmap->tbl8wc2c; /* translit */ #endif /* __UCLIBC_HAS_WCHAR__ */ #endif /* __CTYPE_HAS_8_BIT_LOCALES */ #ifdef __UCLIBC_HAS_WCHAR__ base->tblwctype = (const unsigned char *) &__locale_mmap->tblwctype; base->tblwuplow = (const unsigned char *) &__locale_mmap->tblwuplow; base->tblwuplow_diff = (const int16_t *) &__locale_mmap->tblwuplow_diff; /* base->tblwcomb */ /* = (const unsigned char *) &__locale_mmap->tblwcomb; */ /* width?? */ #endif /* __UCLIBC_HAS_WCHAR__ */ /* Initially, set things up to use the global C ctype tables. * This is correct for C (ASCII) and UTF-8 based locales (except tr_TR). */ #ifdef __UCLIBC_HAS_XLOCALE__ base->__ctype_b = __C_ctype_b; base->__ctype_tolower = __C_ctype_tolower; base->__ctype_toupper = __C_ctype_toupper; #else /* __UCLIBC_HAS_XLOCALE__ */ __ctype_b = __C_ctype_b; __ctype_tolower = __C_ctype_tolower; __ctype_toupper = __C_ctype_toupper; #endif /* __UCLIBC_HAS_XLOCALE__ */ base->code2flag = __code2flag; _locale_set_l((unsigned char*) C_LOCALE_SELECTOR, base); } void _locale_init(void) { /* TODO: mmap the locale file */ /* TODO - ??? */ _locale_init_l(__global_locale); } #endif /**********************************************************************/ #if defined(L_nl_langinfo) || defined(L_nl_langinfo_l) #ifdef __LOCALE_C_ONLY /* We need to index 320 bytes of data, so you might initially think we * need to store the offsets in shorts. But since the offset of the * 64th item is 182, we'll store "offset - 2*64" for all items >= 64 * and always calculate the data offset as "offset[i] + 2*(i & 64)". * This allows us to pack the data offsets in an unsigned char while * also avoiding an "if". * * Note: Category order is assumed to be: * ctype, numeric, monetary, time, collate, messages, all */ #define C_LC_ALL 6 /* Combine the data to avoid size penalty for seperate char arrays when * compiler aligns objects. The original code is left in as documentation. */ #define cat_start nl_data #define C_locale_data (nl_data + C_LC_ALL + 1 + 90) static const unsigned char nl_data[C_LC_ALL + 1 + 90 + 320] = { /* static const char cat_start[LC_ALL + 1] = { */ '\x00', '\x0b', '\x0e', '\x24', '\x56', '\x56', '\x5a', /* }; */ /* static const char item_offset[90] = { */ '\x00', '\x02', '\x04', '\x06', '\x08', '\x0a', '\x0c', '\x0e', '\x10', '\x12', '\x14', '\x1a', '\x1b', '\x1b', '\x1b', '\x1b', '\x1b', '\x1b', '\x1b', '\x1b', '\x1b', '\x1c', '\x1c', '\x1c', '\x1c', '\x1c', '\x1c', '\x1c', '\x1c', '\x1c', '\x1c', '\x1c', '\x1c', '\x1c', '\x1c', '\x1e', '\x20', '\x24', '\x28', '\x2c', '\x30', '\x34', '\x38', '\x3c', '\x43', '\x4a', '\x52', '\x5c', '\x65', '\x6c', '\x75', '\x79', '\x7d', '\x81', '\x85', '\x89', '\x8d', '\x91', '\x95', '\x99', '\x9d', '\xa1', '\xa5', '\xad', '\x36', '\x3c', '\x42', '\x46', '\x4b', '\x50', '\x57', '\x61', '\x69', '\x72', '\x7b', '\x7e', '\x81', '\x96', '\x9f', '\xa8', '\xb3', '\xb3', '\xb3', '\xb3', '\xb3', '\xb3', '\xb4', '\xba', '\xbf', '\xbf', /* }; */ /* static const char C_locale_data[320] = { */ '0', '\x00', '1', '\x00', '2', '\x00', '3', '\x00', '4', '\x00', '5', '\x00', '6', '\x00', '7', '\x00', '8', '\x00', '9', '\x00', 'A', 'S', 'C', 'I', 'I', '\x00', '.', '\x00', '\x7f', '\x00', '-', '\x00', 'S', 'u', 'n', '\x00', 'M', 'o', 'n', '\x00', 'T', 'u', 'e', '\x00', 'W', 'e', 'd', '\x00', 'T', 'h', 'u', '\x00', 'F', 'r', 'i', '\x00', 'S', 'a', 't', '\x00', 'S', 'u', 'n', 'd', 'a', 'y', '\x00', 'M', 'o', 'n', 'd', 'a', 'y', '\x00', 'T', 'u', 'e', 's', 'd', 'a', 'y', '\x00', 'W', 'e', 'd', 'n', 'e', 's', 'd', 'a', 'y', '\x00', 'T', 'h', 'u', 'r', 's', 'd', 'a', 'y', '\x00', 'F', 'r', 'i', 'd', 'a', 'y', '\x00', 'S', 'a', 't', 'u', 'r', 'd', 'a', 'y', '\x00', 'J', 'a', 'n', '\x00', 'F', 'e', 'b', '\x00', 'M', 'a', 'r', '\x00', 'A', 'p', 'r', '\x00', 'M', 'a', 'y', '\x00', 'J', 'u', 'n', '\x00', 'J', 'u', 'l', '\x00', 'A', 'u', 'g', '\x00', 'S', 'e', 'p', '\x00', 'O', 'c', 't', '\x00', 'N', 'o', 'v', '\x00', 'D', 'e', 'c', '\x00', 'J', 'a', 'n', 'u', 'a', 'r', 'y', '\x00', 'F', 'e', 'b', 'r', 'u', 'a', 'r', 'y', '\x00', 'M', 'a', 'r', 'c', 'h', '\x00', 'A', 'p', 'r', 'i', 'l', '\x00', 'M', 'a', 'y', '\x00', 'J', 'u', 'n', 'e', '\x00', 'J', 'u', 'l', 'y', '\x00', 'A', 'u', 'g', 'u', 's', 't', '\x00', 'S', 'e', 'p', 't', 'e', 'm', 'b', 'e', 'r', '\x00', 'O', 'c', 't', 'o', 'b', 'e', 'r', '\x00', 'N', 'o', 'v', 'e', 'm', 'b', 'e', 'r', '\x00', 'D', 'e', 'c', 'e', 'm', 'b', 'e', 'r', '\x00', 'A', 'M', '\x00', 'P', 'M', '\x00', '%', 'a', ' ', '%', 'b', ' ', '%', 'e', ' ', '%', 'H', ':', '%', 'M', ':', '%', 'S', ' ', '%', 'Y', '\x00', '%', 'm', '/', '%', 'd', '/', '%', 'y', '\x00', '%', 'H', ':', '%', 'M', ':', '%', 'S', '\x00', '%', 'I', ':', '%', 'M', ':', '%', 'S', ' ', '%', 'p', '\x00', '^', '[', 'y', 'Y', ']', '\x00', '^', '[', 'n', 'N', ']', '\x00', }; char *nl_langinfo(nl_item item) { unsigned int c; unsigned int i; if ((c = _NL_ITEM_CATEGORY(item)) < C_LC_ALL) { if ((i = cat_start[c] + _NL_ITEM_INDEX(item)) < cat_start[c+1]) { /* return (char *) C_locale_data + item_offset[i] + (i & 64); */ return (char *) C_locale_data + nl_data[C_LC_ALL+1+i] + 2*(i & 64); } } return (char *) cat_start; /* Conveniently, this is the empty string. */ } libc_hidden_def(nl_langinfo) #else /* __LOCALE_C_ONLY */ #if defined(__UCLIBC_HAS_XLOCALE__) && !defined(__UCLIBC_DO_XLOCALE) char *nl_langinfo(nl_item item) { return nl_langinfo_l(item, __UCLIBC_CURLOCALE); } libc_hidden_def(nl_langinfo) #else /* defined(__UCLIBC_HAS_XLOCALE__) && !defined(__UCLIBC_DO_XLOCALE) */ libc_hidden_proto(__XL_NPP(nl_langinfo)) static const char empty[] = ""; char *__XL_NPP(nl_langinfo)(nl_item item __LOCALE_PARAM ) { unsigned int c = _NL_ITEM_CATEGORY(item); unsigned int i = _NL_ITEM_INDEX(item); if ((c < LC_ALL) && (i < __LOCALE_PTR->category_item_count[c])) { return ((char **)(((char *) __LOCALE_PTR) + __LOCALE_PTR->category_offsets[c]))[i]; } return (char *) empty; } libc_hidden_def(__XL_NPP(nl_langinfo)) #endif /* defined(__UCLIBC_HAS_XLOCALE__) && !defined(__UCLIBC_DO_XLOCALE) */ #endif /* __LOCALE_C_ONLY */ #endif /**********************************************************************/ #ifdef L_newlocale static const char posix[] = "POSIX"; static const char utf8[] = "UTF-8"; static int find_locale(int category_mask, const char *p, unsigned char *new_locale) { int i; const unsigned char *s; uint16_t n; unsigned char lang_cult, codeset; #if defined(__LOCALE_DATA_AT_MODIFIERS_LENGTH) && 1 /* Support standard locale handling for @-modifiers. */ char buf[18]; /* TODO: 7+{max codeset name length} */ const char *q; if ((q = strchr(p,'@')) != NULL) { if ((((size_t)((q-p)-5)) > (sizeof(buf) - 5)) || (p[2] != '_')) { return 0; } /* locale name at least 5 chars long and 3rd char is '_' */ s = LOCALE_AT_MODIFIERS; do { if (!strcmp((char*) (s + 2), q + 1)) { break; } s += 2 + *s; /* TODO - fix this throughout */ } while (*s); if (!*s) { return 0; } assert(q - p < sizeof(buf)); memcpy(buf, p, q-p); buf[q-p] = 0; buf[2] = s[1]; p = buf; } #endif lang_cult = codeset = 0; /* Assume C and default codeset. */ if (((*p == 'C') && !p[1]) || !strcmp(p, posix)) { goto FIND_LOCALE; } if ((strlen(p) > 5) && (p[5] == '.')) { /* Codeset in locale name? */ /* TODO: maybe CODESET_LIST + *s ??? */ /* 7bit is 1, UTF-8 is 2, 8-bit is >= 3 */ codeset = 2; if (strcasecmp(utf8, p + 6) != 0) {/* TODO - fix! */ s = CODESET_LIST; do { ++codeset; /* Increment codeset first. */ if (!strcmp((char*) CODESET_LIST + *s, p + 6)) { goto FIND_LANG_CULT; } } while (*++s); return 0; /* No matching codeset! */ } } FIND_LANG_CULT: /* Find language_culture number. */ s = LOCALE_NAMES; do { /* TODO -- do a binary search? */ /* TODO -- fix gen_mmap!*/ ++lang_cult; /* Increment first since C/POSIX is 0. */ if (!strncmp((char*) s, p, 5)) { /* Found a matching locale name; */ goto FIND_LOCALE; } s += 5; } while (lang_cult < __LOCALE_DATA_NUM_LOCALE_NAMES); return 0; /* No matching language_culture! */ FIND_LOCALE: /* Find locale row matching name and codeset */ s = LOCALES; n = 0; do { /* TODO -- do a binary search? */ if ((lang_cult == *s) && ((codeset == s[1]) || (codeset == s[2]))) { i = 1; s = new_locale + 1; do { if (category_mask & i) { /* Encode current locale row number. */ ((unsigned char *) s)[0] = (n >> 7) | 0x80; ((unsigned char *) s)[1] = (n & 0x7f) | 0x80; } s += 2; i += i; } while (i < (1 << LC_ALL)); return i; /* Return non-zero */ } s += __LOCALE_DATA_WIDTH_LOCALES; ++n; } while (n <= __LOCALE_DATA_NUM_LOCALES); /* We started at 1!!! */ return 0; /* Unsupported locale. */ } static unsigned char *composite_locale(int category_mask, const char *locale, unsigned char *new_locale) { char buf[MAX_LOCALE_STR]; char *t; char *e; int c; int component_mask; if (!strchr(locale,'=')) { if (!find_locale(category_mask, locale, new_locale)) { return NULL; } return new_locale; } if (strlen(locale) >= sizeof(buf)) { return NULL; } stpcpy(buf, locale); component_mask = 0; t = strtok_r(buf, "=", &e); /* This can't fail because of strchr test above. */ do { c = 0; /* CATEGORY_NAMES is unsigned char* */ while (strcmp((char*) CATEGORY_NAMES + (int) CATEGORY_NAMES[c], t)) { if (++c == LC_ALL) { /* Unknown category name! */ return NULL; } } t = strtok_r(NULL, ";", &e); c = (1 << c); if (component_mask & c) { /* Multiple components for one category. */ return NULL; } component_mask |= c; if ((category_mask & c) && (!t || !find_locale(c, t, new_locale))) { return NULL; } } while ((t = strtok_r(NULL, "=", &e)) != NULL); if (category_mask & ~component_mask) { /* Category component(s) missing. */ return NULL; } return new_locale; } __locale_t newlocale(int category_mask, const char *locale, __locale_t base) { const char *p; int i, j, k; unsigned char new_selector[LOCALE_SELECTOR_SIZE]; if (category_mask == (1 << LC_ALL)) { category_mask = LC_ALL_MASK; } if (!locale || ((unsigned)(category_mask) > LC_ALL_MASK)) { INVALID: __set_errno(EINVAL); return NULL; /* No locale or illegal/unsupported category. */ } strcpy((char *) new_selector, (base ? (char *) base->cur_locale : C_LOCALE_SELECTOR)); if (!locale[0]) { /* locale == "", so check environment. */ const char *envstr[4]; envstr[0] = "LC_ALL"; envstr[1] = NULL; envstr[2] = "LANG"; envstr[3] = posix; i = 1; k = 0; do { if (category_mask & i) { /* Note: SUSv3 doesn't define a fallback mechanism here. * So, if LC_ALL is invalid, we do _not_ continue trying * the other environment vars. */ envstr[1] = (char*) CATEGORY_NAMES + CATEGORY_NAMES[k]; j = 0; while (1) { p = envstr[j]; if (++j >= 4) break; /* now p == "POSIX" */ p = getenv(p); if (p && p[0]) break; }; /* The user set something... is it valid? */ /* Note: Since we don't support user-supplied locales and * alternate paths, we don't need to worry about special * handling for suid/sgid apps. */ if (!find_locale(i, p, new_selector)) { goto INVALID; } } i += i; } while (++k < LC_ALL); } else if (!composite_locale(category_mask, locale, new_selector)) { goto INVALID; } /* If we get here, the new selector corresponds to a valid locale. */ #if 0 if (base) { _locale_set_l(new_selector, base); } else { base = _locale_new(new_selector); } #else if (!base) { base = calloc(1, sizeof(struct __uclibc_locale_struct)); if (base == NULL) return base; _locale_init_l(base); } _locale_set_l(new_selector, base); #endif return base; } #ifdef __UCLIBC_HAS_XLOCALE__ libc_hidden_def(newlocale) #endif #endif /**********************************************************************/ #ifdef L_duplocale __locale_t duplocale(__locale_t dataset) { __locale_t r; uint16_t * i2w; size_t n; assert(dataset != LC_GLOBAL_LOCALE); r = malloc(sizeof(struct __uclibc_locale_struct)); if (r != NULL) { n = 2 * dataset->collate.max_col_index + 2; i2w = calloc(n, sizeof(uint16_t)); if (i2w != NULL) { memcpy(r, dataset, sizeof(struct __uclibc_locale_struct)); r->collate.index2weight = i2w; memcpy(i2w, dataset->collate.index2weight, n * sizeof(uint16_t)); } else { free(r); r = NULL; } } return r; } #endif /**********************************************************************/ #ifdef L_freelocale void freelocale(__locale_t dataset) { assert(dataset != __global_locale); assert(dataset != LC_GLOBAL_LOCALE); free(dataset->collate.index2weight); /* Free collation data. */ free(dataset); /* Free locale */ } #endif /**********************************************************************/ #ifdef L_uselocale __locale_t uselocale(__locale_t dataset) { __locale_t old; if (!dataset) { old = __UCLIBC_CURLOCALE; } else { if (dataset == LC_GLOBAL_LOCALE) { dataset = __global_locale; } #ifdef __UCLIBC_HAS_THREADS__ old = __curlocale_set(dataset); #else old = __curlocale_var; __curlocale_var = dataset; #endif } if (old == __global_locale) { return LC_GLOBAL_LOCALE; } return old; } libc_hidden_def(uselocale) #endif /**********************************************************************/ #ifdef L___curlocale #ifdef __UCLIBC_HAS_THREADS__ __locale_t weak_const_function __curlocale(void) { return __curlocale_var; /* This is overriden by the thread version. */ } libc_hidden_weak(__curlocale) __locale_t weak_function __curlocale_set(__locale_t newloc) { __locale_t oldloc = __curlocale_var; assert(newloc != LC_GLOBAL_LOCALE); __curlocale_var = newloc; return oldloc; } libc_hidden_weak(__curlocale_set) #endif #endif /**********************************************************************/ #ifdef L___locale_mbrtowc_l /* NOTE: This returns an int... not size_t. Also, it is not a general * routine. It is actually a very stripped-down version of mbrtowc * that takes a __locale_t arg. This is used by strcoll and strxfrm. * It is also used above to generate wchar_t versions of the decimal point * and thousands seperator. */ #ifndef __CTYPE_HAS_UTF_8_LOCALES #warning __CTYPE_HAS_UTF_8_LOCALES not set! #endif #ifndef __CTYPE_HAS_8_BIT_LOCALES #warning __CTYPE_HAS_8_BIT_LOCALES not set! #endif #define Cc2wc_IDX_SHIFT __LOCALE_DATA_Cc2wc_IDX_SHIFT #define Cc2wc_ROW_LEN __LOCALE_DATA_Cc2wc_ROW_LEN extern size_t _wchar_utf8sntowcs(wchar_t *__restrict pwc, size_t wn, const char **__restrict src, size_t n, mbstate_t *ps, int allow_continuation) attribute_hidden; int attribute_hidden __locale_mbrtowc_l(wchar_t *__restrict dst, const char *__restrict src, __locale_t loc ) { #ifdef __CTYPE_HAS_UTF_8_LOCALES if (loc->encoding == __ctype_encoding_utf8) { mbstate_t ps; const char *p = src; size_t r; ps.__mask = 0; r = _wchar_utf8sntowcs(dst, 1, &p, SIZE_MAX, &ps, 1); return (r == 1) ? (p-src) : r; /* Need to return 0 if nul char. */ } #endif #ifdef __CTYPE_HAS_8_BIT_LOCALES assert((loc->encoding == __ctype_encoding_7_bit) || (loc->encoding == __ctype_encoding_8_bit)); #else assert(loc->encoding == __ctype_encoding_7_bit); #endif if ((*dst = ((unsigned char)(*src))) < 0x80) { /* ASCII... */ return (*src != 0); } #ifdef __CTYPE_HAS_8_BIT_LOCALES if (loc->encoding == __ctype_encoding_8_bit) { wchar_t wc = *dst - 0x80; *dst = loc->tbl8c2wc[ (loc->idx8c2wc[wc >> Cc2wc_IDX_SHIFT] << Cc2wc_IDX_SHIFT) + (wc & (Cc2wc_ROW_LEN - 1))]; if (*dst) { return 1; } } #endif return -1; } #endif /**********************************************************************/ |