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[/] [openrisc/] [trunk/] [gnu-src/] [newlib-1.18.0/] [newlib/] [libc/] [iconv/] [ces/] [table.c] - Rev 207
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/* * Copyright (c) 2003-2004, Artem B. Bityuckiy * Copyright (c) 1999,2000, Konstantin Chuguev. All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF * SUCH DAMAGE. */ #include "cesbi.h" #if defined (ICONV_TO_UCS_CES_TABLE) \ || defined (ICONV_FROM_UCS_CES_TABLE) #include <_ansi.h> #include <reent.h> #include <newlib.h> #include <sys/types.h> #include <string.h> #include <stdlib.h> #include <unistd.h> #include <fcntl.h> #include <sys/iconvnls.h> #include "../lib/endian.h" #include "../lib/local.h" #include "../lib/ucsconv.h" #include "../ccs/ccs.h" /* * Table-based CES converter is implemented here. Table-based CES converter * deals with encodings with "null" CES, like KOI8-R. In this case it is * possible to implement one generic algorithm which works with different * CCS tables. * * Table-based CES converter deals with CCS tables placed into iconv/ccs * subdirectory. First, converter tries to find needed CCS table among * linked-in tables. If not found, it tries to load it from external file * (only if corespondent capability was enabled in Newlib configuration). * * 16 bit encodings are assumed to be Big Endian. */ static ucs2_t _EXFUN(find_code_size, (ucs2_t code, _CONST __uint16_t *tblp)); static __inline ucs2_t _EXFUN(find_code_speed, (ucs2_t code, _CONST __uint16_t *tblp)); static __inline ucs2_t _EXFUN(find_code_speed_8bit, (ucs2_t code, _CONST unsigned char *tblp)); #ifdef _ICONV_ENABLE_EXTERNAL_CCS static _CONST iconv_ccs_desc_t * _EXFUN(load_file, (struct _reent *rptr, _CONST char *name, int direction)); #endif /* * Interface data and functions implementation. */ static size_t _DEFUN(table_close, (rptr, data), struct _reent *rptr _AND _VOID_PTR data) { _CONST iconv_ccs_desc_t *ccsp = (iconv_ccs_desc_t *)data; if (ccsp->type == TABLE_EXTERNAL) _free_r (rptr, (_VOID_PTR)ccsp->tbl); _free_r( rptr, (_VOID_PTR)ccsp); return 0; } #if defined (ICONV_FROM_UCS_CES_TABLE) static _VOID_PTR _DEFUN(table_init_from_ucs, (rptr, encoding), struct _reent *rptr _AND _CONST char *encoding) { int i; _CONST iconv_ccs_t *biccsp = NULL; iconv_ccs_desc_t *ccsp; for (i = 0; _iconv_ccs[i] != NULL; i++) if (strcmp (_iconv_ccs[i]->name, encoding) == 0) { biccsp = _iconv_ccs[i]; break; } if (biccsp != NULL) { if (biccsp->from_ucs == NULL || (ccsp = (iconv_ccs_desc_t *) _malloc_r (rptr, sizeof (iconv_ccs_desc_t))) == NULL) return NULL; ccsp->type = TABLE_BUILTIN; ccsp->bits = biccsp->bits; ccsp->optimization = biccsp->from_ucs_type; ccsp->tbl = biccsp->from_ucs; return (_VOID_PTR)ccsp; } #ifdef _ICONV_ENABLE_EXTERNAL_CCS return (_VOID_PTR)load_file (rptr, encoding, 1); #else return NULL; #endif } static size_t _DEFUN(table_convert_from_ucs, (data, in, outbuf, outbytesleft), _VOID_PTR data _AND ucs4_t in _AND unsigned char **outbuf _AND size_t *outbytesleft) { _CONST iconv_ccs_desc_t *ccsp = (iconv_ccs_desc_t *)data; ucs2_t code; if (in > 0xFFFF || in == INVALC) return (size_t)ICONV_CES_INVALID_CHARACTER; if (ccsp->bits == TABLE_8BIT) { code = find_code_speed_8bit ((ucs2_t)in, (_CONST unsigned char *)ccsp->tbl); if (code == INVALC) return (size_t)ICONV_CES_INVALID_CHARACTER; **outbuf = (unsigned char)code; *outbuf += 1; *outbytesleft -= 1; return 1; } else if (ccsp->optimization == TABLE_SPEED_OPTIMIZED) code = find_code_speed ((ucs2_t)in, ccsp->tbl); else code = find_code_size ((ucs2_t)in, ccsp->tbl); if (code == INVALC) return (size_t)ICONV_CES_INVALID_CHARACTER; if (*outbytesleft < 2) return (size_t)ICONV_CES_NOSPACE; /* We can't store whole word since **outbuf may be not 2-byte aligned */ **outbuf = (unsigned char)((ucs2_t)code >> 8); *(*outbuf + 1) = (unsigned char)code; *outbuf += 2; *outbytesleft -= 2; return 2; } #endif /* ICONV_FROM_UCS_CES_TABLE */ #if defined (ICONV_TO_UCS_CES_TABLE) static _VOID_PTR _DEFUN(table_init_to_ucs, (rptr, encoding), struct _reent *rptr _AND _CONST char *encoding) { int i; _CONST iconv_ccs_t *biccsp = NULL; iconv_ccs_desc_t *ccsp; for (i = 0; _iconv_ccs[i] != NULL; i++) if (strcmp (_iconv_ccs[i]->name, encoding) == 0) { biccsp = _iconv_ccs[i]; break; } if (biccsp != NULL) { if (biccsp->to_ucs == NULL || (ccsp = (iconv_ccs_desc_t *) _malloc_r (rptr, sizeof (iconv_ccs_desc_t))) == NULL) return NULL; ccsp->type = TABLE_BUILTIN; ccsp->bits = biccsp->bits; ccsp->optimization = biccsp->to_ucs_type; ccsp->tbl = biccsp->to_ucs; return (_VOID_PTR)ccsp; } #ifdef _ICONV_ENABLE_EXTERNAL_CCS return (_VOID_PTR)load_file (rptr, encoding, 0); #else return NULL; #endif } static ucs4_t _DEFUN(table_convert_to_ucs, (data, inbuf, inbytesleft), _VOID_PTR data _AND _CONST unsigned char **inbuf _AND size_t *inbytesleft) { _CONST iconv_ccs_desc_t *ccsp = (iconv_ccs_desc_t *)data; ucs2_t ucs; if (ccsp->bits == TABLE_8BIT) { if (*inbytesleft < 1) return (ucs4_t)ICONV_CES_BAD_SEQUENCE; ucs = (ucs2_t)ccsp->tbl[**inbuf]; if (ucs == INVALC) return (ucs4_t)ICONV_CES_INVALID_CHARACTER; *inbytesleft -= 1; *inbuf += 1; return (ucs4_t)ucs; } if (*inbytesleft < 2) return (ucs4_t)ICONV_CES_BAD_SEQUENCE; if (ccsp->optimization == TABLE_SIZE_OPTIMIZED) ucs = find_code_size((ucs2_t)**inbuf << 8 | (ucs2_t)*(*inbuf + 1), ccsp->tbl); else ucs = find_code_speed((ucs2_t)**inbuf << 8 | (ucs2_t)*(*inbuf + 1), ccsp->tbl); if (ucs == INVALC) return (ucs4_t)ICONV_CES_INVALID_CHARACTER; *inbuf += 2; *inbytesleft -= 2; return (ucs4_t)ucs; } #endif /* ICONV_TO_UCS_CES_TABLE */ static int _DEFUN(table_get_mb_cur_max, (data), _VOID_PTR data) { return ((iconv_ccs_desc_t *)data)->bits/8; } #if defined (ICONV_TO_UCS_CES_TABLE) _CONST iconv_to_ucs_ces_handlers_t _iconv_to_ucs_ces_handlers_table = { table_init_to_ucs, table_close, table_get_mb_cur_max, NULL, NULL, NULL, table_convert_to_ucs }; #endif /* ICONV_FROM_UCS_CES_TABLE */ #if defined (ICONV_FROM_UCS_CES_TABLE) _CONST iconv_from_ucs_ces_handlers_t _iconv_from_ucs_ces_handlers_table = { table_init_from_ucs, table_close, table_get_mb_cur_max, NULL, NULL, NULL, table_convert_from_ucs }; #endif /* ICONV_TO_UCS_CES_TABLE */ /* * Supplementary functions. */ /* * find_code_speed - find code in 16 bit speed-optimized table. * * PARAMETERS: * ucs2_t code - code whose mapping to find. * _CONST __uint16_t *tblp - table pointer. * * RETURN: * Code that corresponds to 'code'. */ static __inline ucs2_t _DEFUN(find_code_speed, (code, tblp), ucs2_t code _AND _CONST __uint16_t *tblp) { int idx = tblp[code >> 8]; if (idx == INVBLK) return (ucs2_t)INVALC; return (ucs2_t)tblp[(code & 0x00FF) + idx]; } /* * find_code_speed_8bit - find code in 8 bit speed-optimized table. * * PARAMETERS: * ucs2_t code - code whose mapping to find. * _CONST __uint16_t *tblp - table pointer. * * RETURN: * Code that corresponds to 'code'. */ static __inline ucs2_t _DEFUN(find_code_speed_8bit, (code, tblp), ucs2_t code _AND _CONST unsigned char *tblp) { int idx; unsigned char ccs; if (code == ((ucs2_t *)tblp)[0]) return (ucs2_t)0xFF; idx = ((ucs2_t *)tblp)[1 + (code >> 8)]; if (idx == INVBLK) return (ucs2_t)INVALC; ccs = tblp[(code & 0x00FF) + idx]; return ccs == 0xFF ? (ucs2_t)INVALC : (ucs2_t)ccs; } /* Left range boundary */ #define RANGE_LEFT(n) (tblp[FIRST_RANGE_INDEX + (n)*3 + 0]) /* Right range boundary */ #define RANGE_RIGHT(n) (tblp[FIRST_RANGE_INDEX + (n)*3 + 1]) /* Range offset */ #define RANGE_INDEX(n) (tblp[FIRST_RANGE_INDEX + (n)*3 + 2]) /* Un-ranged offset */ #define UNRANGED_INDEX(n) (tblp[FIRST_UNRANGED_INDEX_INDEX] + (n)*2) /* * find_code_size - find code in 16 bit size-optimized table. * * PARAMETERS: * ucs2_t code - code whose mapping to find. * _CONST __uint16_t *tblp - table pointer. * * RETURN: * Code that corresponds to 'code'. */ static ucs2_t _DEFUN(find_code_size, (code, tblp), ucs2_t code _AND _CONST __uint16_t *tblp) { int first, last, cur, center; if (tblp[RANGES_NUM_INDEX] > 0) { first = 0; last = tblp[RANGES_NUM_INDEX] - 1; do { center = (last - first)/2; cur = center + first; if (code > RANGE_RIGHT (cur)) first = cur; else if (code < RANGE_LEFT (cur)) last = cur; else return (ucs2_t)tblp[RANGE_INDEX (cur) + code - RANGE_LEFT (cur)]; } while (center > 0); if (last - first == 1) { if (code >= RANGE_LEFT (first) && code <= RANGE_RIGHT (first)) return (ucs2_t)tblp[RANGE_INDEX (first) + code - RANGE_LEFT (first)]; if (code >= RANGE_LEFT (last) && code <= RANGE_RIGHT (last)) return (ucs2_t)tblp[RANGE_INDEX (last) + code - RANGE_LEFT (last)]; } } if (tblp[UNRANGED_NUM_INDEX] > 0) { first = 0; last = tblp[UNRANGED_NUM_INDEX] - 1; do { int c; center = (last - first)/2; cur = center + first; c = tblp[UNRANGED_INDEX (cur)]; if (code > c) first = cur; else if (code < c) last = cur; else return (ucs2_t)tblp[UNRANGED_INDEX (cur) + 1]; } while (center > 0); if (last - first == 1) { if (code == tblp[UNRANGED_INDEX (first)]) return (ucs2_t)tblp[UNRANGED_INDEX (first) + 1]; if (code == tblp[UNRANGED_INDEX (last)]) return (ucs2_t)tblp[UNRANGED_INDEX (last) + 1]; } } return (ucs2_t)INVALC; } #ifdef _ICONV_ENABLE_EXTERNAL_CCS #define _16BIT_ELT(offset) \ ICONV_BETOHS(*((__uint16_t *)(buf + (offset)))) #define _32BIT_ELT(offset) \ ICONV_BETOHL(*((__uint32_t *)(buf + (offset)))) /* * load_file - load conversion table from external file and initialize * iconv_ccs_desc_t object. * * PARAMETERS: * struct _reent *rptr - reent structure of current thread/process. * _CONST char *name - encoding name. * int direction - conversion direction. * * DESCRIPTION: * Loads conversion table of appropriate endianess from external file * and initializes 'iconv_ccs_desc_t' table description structure. * If 'direction' is 0 - load "To UCS" table, else load "From UCS" * table. * * RETURN: * iconv_ccs_desc_t * pointer is success, NULL if failure. */ static _CONST iconv_ccs_desc_t * _DEFUN(load_file, (rptr, name, direction), struct _reent *rptr _AND _CONST char *name _AND int direction) { int fd; _CONST unsigned char *buf; int tbllen, hdrlen; off_t off; _CONST char *fname; iconv_ccs_desc_t *ccsp = NULL; int nmlen = strlen(name); /* Since CCS table name length can vary - it is aligned (by adding extra * bytes to it's end) to 4-byte boundary. */ int alignment = nmlen & 3 ? 4 - (nmlen & 3) : 0; nmlen = strlen(name); hdrlen = nmlen + EXTTABLE_HEADER_LEN + alignment; if ((fname = _iconv_nls_construct_filename (rptr, name, ICONV_SUBDIR, ICONV_DATA_EXT)) == NULL) return NULL; if ((fd = _open_r (rptr, fname, O_RDONLY, S_IRUSR)) == -1) goto error1; if ((buf = (_CONST unsigned char *)_malloc_r (rptr, hdrlen)) == NULL) goto error2; if (_read_r (rptr, fd, (_VOID_PTR)buf, hdrlen) != hdrlen) goto error3; if (_16BIT_ELT (EXTTABLE_VERSION_OFF) != TABLE_VERSION_1 || _32BIT_ELT (EXTTABLE_CCSNAME_LEN_OFF) != nmlen || strncmp (buf + EXTTABLE_CCSNAME_OFF, name, nmlen) != 0) goto error3; /* Bad file */ if ((ccsp = (iconv_ccs_desc_t *) _calloc_r (rptr, 1, sizeof (iconv_ccs_desc_t))) == NULL) goto error3; ccsp->bits = _16BIT_ELT (EXTTABLE_BITS_OFF); ccsp->type = TABLE_EXTERNAL; /* Add 4-byte alignment to name length */ nmlen += alignment; if (ccsp->bits == TABLE_8BIT) { if (direction == 0) /* Load "To UCS" table */ { off = (off_t)_32BIT_ELT (nmlen + EXTTABLE_TO_SPEED_OFF); tbllen = _32BIT_ELT (nmlen + EXTTABLE_TO_SPEED_LEN_OFF); } else /* Load "From UCS" table */ { off = (off_t)_32BIT_ELT (nmlen + EXTTABLE_FROM_SPEED_OFF); tbllen = _32BIT_ELT (nmlen + EXTTABLE_FROM_SPEED_LEN_OFF); } } else if (ccsp->bits == TABLE_16BIT) { if (direction == 0) /* Load "To UCS" table */ { #ifdef TABLE_USE_SIZE_OPTIMIZATION off = (off_t)_32BIT_ELT (nmlen + EXTTABLE_TO_SIZE_OFF); tbllen = _32BIT_ELT (nmlen + EXTTABLE_TO_SIZE_LEN_OFF); #else off = (off_t)_32BIT_ELT (nmlen + EXTTABLE_TO_SPEED_OFF); tbllen = _32BIT_ELT (nmlen + EXTTABLE_TO_SPEED_LEN_OFF); #endif } else /* Load "From UCS" table */ { #ifdef TABLE_USE_SIZE_OPTIMIZATION off = (off_t)_32BIT_ELT (nmlen + EXTTABLE_FROM_SIZE_OFF); tbllen = _32BIT_ELT (nmlen + EXTTABLE_FROM_SIZE_LEN_OFF); #else off = (off_t)_32BIT_ELT (nmlen + EXTTABLE_FROM_SPEED_OFF); tbllen = _32BIT_ELT (nmlen + EXTTABLE_FROM_SPEED_LEN_OFF); #endif } #ifdef TABLE_USE_SIZE_OPTIMIZATION ccsp->optimization = TABLE_SIZE_OPTIMIZED; #else ccsp->optimization = TABLE_SPEED_OPTIMIZED; #endif } else goto error4; /* Bad file */ if (off == EXTTABLE_NO_TABLE) goto error4; /* No correspondent table in file */ if ((ccsp->tbl = (ucs2_t *)_malloc_r (rptr, tbllen)) == NULL) goto error4; if (_lseek_r (rptr, fd, off, SEEK_SET) == (off_t)-1 || _read_r (rptr, fd, (_VOID_PTR)ccsp->tbl, tbllen) != tbllen) goto error5; goto normal_exit; error5: _free_r (rptr, (_VOID_PTR)ccsp->tbl); ccsp->tbl = NULL; error4: _free_r (rptr, (_VOID_PTR)ccsp); ccsp = NULL; error3: normal_exit: _free_r (rptr, (_VOID_PTR)buf); error2: if (_close_r (rptr, fd) == -1) { if (ccsp != NULL) { if (ccsp->tbl != NULL) _free_r (rptr, (_VOID_PTR)ccsp->tbl); _free_r (rptr, (_VOID_PTR)ccsp); } ccsp = NULL; } error1: _free_r (rptr, (_VOID_PTR)fname); return ccsp; } #endif #endif /* ICONV_TO_UCS_CES_TABLE || ICONV_FROM_UCS_CES_TABLE */