/* * conversion functions between pg_wchar and multibyte streams. * Tatsuo Ishii * $PostgreSQL: pgsql/src/backend/utils/mb/wchar.c,v 1.57 2006/08/22 12:11:28 momjian Exp $ * * WIN1250 client encoding updated by Pavel Behal * */ /* can be used in either frontend or backend */ #ifdef FRONTEND #include "postgres_fe.h" #define Assert(condition) #else #include "postgres.h" #endif #include "mb/pg_wchar.h" /* * conversion to pg_wchar is done by "table driven." * to add an encoding support, define mb2wchar_with_len(), mblen(), dsplen() * for the particular encoding. Note that if the encoding is only * supported in the client, you don't need to define * mb2wchar_with_len() function (SJIS is the case). * * These functions generally assume that their input is validly formed. * The "verifier" functions, further down in the file, have to be more * paranoid. We expect that mblen() does not need to examine more than * the first byte of the character to discover the correct length. * * Note: for the display output of psql to work properly, the return values * of the dsplen functions must conform to the Unicode standard. In particular * the NUL character is zero width and control characters are generally * width -1. It is recommended that non-ASCII encodings refer their ASCII * subset to the ASCII routines to ensure consistency. */ /* * SQL/ASCII */ static int pg_ascii2wchar_with_len (const unsigned char *from, pg_wchar *to, int len) { int cnt = 0; while (len > 0 && *from) { *to++ = *from++; len--; cnt++; } *to = 0; return cnt; } static int pg_ascii_mblen(const unsigned char *s) { return 1; } static int pg_ascii_dsplen(const unsigned char *s) { if (*s == '\0') return 0; if (*s < 0x20 || *s == 0x7f) return -1; return 1; } /* * EUC */ static int pg_euc2wchar_with_len (const unsigned char *from, pg_wchar *to, int len) { int cnt = 0; while (len > 0 && *from) { if (*from == SS2 && len >= 2) /* JIS X 0201 (so called "1 byte KANA") */ { from++; *to = (SS2 << 8) | *from++; len -= 2; } else if (*from == SS3 && len >= 3) /* JIS X 0212 KANJI */ { from++; *to = (SS3 << 16) | (*from++ << 8); *to |= *from++; len -= 3; } else if (IS_HIGHBIT_SET(*from) && len >= 2) /* JIS X 0208 KANJI */ { *to = *from++ << 8; *to |= *from++; len -= 2; } else /* must be ASCII */ { *to = *from++; len--; } to++; cnt++; } *to = 0; return cnt; } static inline int pg_euc_mblen(const unsigned char *s) { int len; if (*s == SS2) len = 2; else if (*s == SS3) len = 3; else if (IS_HIGHBIT_SET(*s)) len = 2; else len = 1; return len; } static inline int pg_euc_dsplen(const unsigned char *s) { int len; if (*s == SS2) len = 2; else if (*s == SS3) len = 2; else if (IS_HIGHBIT_SET(*s)) len = 2; else len = pg_ascii_dsplen(s); return len; } /* * EUC_JP */ static int pg_eucjp2wchar_with_len (const unsigned char *from, pg_wchar *to, int len) { return pg_euc2wchar_with_len(from, to, len); } static int pg_eucjp_mblen(const unsigned char *s) { return pg_euc_mblen(s); } static int pg_eucjp_dsplen(const unsigned char *s) { int len; if (*s == SS2) len = 1; else if (*s == SS3) len = 2; else if (IS_HIGHBIT_SET(*s)) len = 2; else len = pg_ascii_dsplen(s); return len; } /* * EUC_KR */ static int pg_euckr2wchar_with_len (const unsigned char *from, pg_wchar *to, int len) { return pg_euc2wchar_with_len(from, to, len); } static int pg_euckr_mblen(const unsigned char *s) { return pg_euc_mblen(s); } static int pg_euckr_dsplen(const unsigned char *s) { return pg_euc_dsplen(s); } /* * EUC_CN * */ static int pg_euccn2wchar_with_len (const unsigned char *from, pg_wchar *to, int len) { int cnt = 0; while (len > 0 && *from) { if (*from == SS2 && len >= 3) /* code set 2 (unused?) */ { from++; *to = (SS2 << 16) | (*from++ << 8); *to |= *from++; len -= 3; } else if (*from == SS3 && len >= 3) /* code set 3 (unsed ?) */ { from++; *to = (SS3 << 16) | (*from++ << 8); *to |= *from++; len -= 3; } else if (IS_HIGHBIT_SET(*from) && len >= 2) /* code set 1 */ { *to = *from++ << 8; *to |= *from++; len -= 2; } else { *to = *from++; len--; } to++; cnt++; } *to = 0; return cnt; } static int pg_euccn_mblen(const unsigned char *s) { int len; if (IS_HIGHBIT_SET(*s)) len = 2; else len = 1; return len; } static int pg_euccn_dsplen(const unsigned char *s) { int len; if (IS_HIGHBIT_SET(*s)) len = 2; else len = pg_ascii_dsplen(s); return len; } /* * EUC_TW * */ static int pg_euctw2wchar_with_len (const unsigned char *from, pg_wchar *to, int len) { int cnt = 0; while (len > 0 && *from) { if (*from == SS2 && len >= 4) /* code set 2 */ { from++; *to = (SS2 << 24) | (*from++ << 16) ; *to |= *from++ << 8; *to |= *from++; len -= 4; } else if (*from == SS3 && len >= 3) /* code set 3 (unused?) */ { from++; *to = (SS3 << 16) | (*from++ << 8); *to |= *from++; len -= 3; } else if (IS_HIGHBIT_SET(*from) && len >= 2) /* code set 2 */ { *to = *from++ << 8; *to |= *from++; len -= 2; } else { *to = *from++; len--; } to++; cnt++; } *to = 0; return cnt; } static int pg_euctw_mblen(const unsigned char *s) { int len; if (*s == SS2) len = 4; else if (*s == SS3) len = 3; else if (IS_HIGHBIT_SET(*s)) len = 2; else len = 1; return len; } static int pg_euctw_dsplen(const unsigned char *s) { int len; if (*s == SS2) len = 2; else if (*s == SS3) len = 2; else if (IS_HIGHBIT_SET(*s)) len = 2; else len = pg_ascii_dsplen(s); return len; } /* * JOHAB */ static int pg_johab2wchar_with_len(const unsigned char *from, pg_wchar *to, int len) { return pg_euc2wchar_with_len(from, to, len); } static int pg_johab_mblen(const unsigned char *s) { return pg_euc_mblen(s); } static int pg_johab_dsplen(const unsigned char *s) { return pg_euc_dsplen(s); } /* * convert UTF8 string to pg_wchar (UCS-2) * caller should allocate enough space for "to" * len: length of from. * "from" not necessarily null terminated. */ static int pg_utf2wchar_with_len(const unsigned char *from, pg_wchar *to, int len) { unsigned char c1, c2, c3; int cnt = 0; while (len > 0 && *from) { if (!IS_HIGHBIT_SET(*from)) { *to = *from++; len--; } else if ((*from & 0xe0) == 0xc0 && len >= 2) { c1 = *from++ & 0x1f; c2 = *from++ & 0x3f; *to = c1 << 6; *to |= c2; len -= 2; } else if ((*from & 0xe0) == 0xe0 && len >= 3) { c1 = *from++ & 0x0f; c2 = *from++ & 0x3f; c3 = *from++ & 0x3f; *to = c1 << 12; *to |= c2 << 6; *to |= c3; len -= 3; } else { *to = *from++; len--; } to++; cnt++; } *to = 0; return cnt; } /* * returns the byte length of a UTF8 character pointed to by s */ int pg_utf_mblen(const unsigned char *s) { int len = 1; if ((*s & 0x80) == 0) len = 1; else if ((*s & 0xe0) == 0xc0) len = 2; else if ((*s & 0xf0) == 0xe0) len = 3; else if ((*s & 0xf8) == 0xf0) len = 4; else if ((*s & 0xfc) == 0xf8) len = 5; else if ((*s & 0xfe) == 0xfc) len = 6; return len; } /* * This is an implementation of wcwidth() and wcswidth() as defined in * "The Single UNIX Specification, Version 2, The Open Group, 1997" * * * Markus Kuhn -- 2001-09-08 -- public domain * * customised for PostgreSQL * * original available at : http://www.cl.cam.ac.uk/~mgk25/ucs/wcwidth.c */ struct mbinterval { unsigned short first; unsigned short last; }; /* auxiliary function for binary search in interval table */ static int mbbisearch(pg_wchar ucs, const struct mbinterval *table, int max) { int min = 0; int mid; if (ucs < table[0].first || ucs > table[max].last) return 0; while (max >= min) { mid = (min + max) / 2; if (ucs > table[mid].last) min = mid + 1; else if (ucs < table[mid].first) max = mid - 1; else return 1; } return 0; } /* The following functions define the column width of an ISO 10646 * character as follows: * * - The null character (U+0000) has a column width of 0. * * - Other C0/C1 control characters and DEL will lead to a return * value of -1. * * - Non-spacing and enclosing combining characters (general * category code Mn or Me in the Unicode database) have a * column width of 0. * * - Other format characters (general category code Cf in the Unicode * database) and ZERO WIDTH SPACE (U+200B) have a column width of 0. * * - Hangul Jamo medial vowels and final consonants (U+1160-U+11FF) * have a column width of 0. * * - Spacing characters in the East Asian Wide (W) or East Asian * FullWidth (F) category as defined in Unicode Technical * Report #11 have a column width of 2. * * - All remaining characters (including all printable * ISO 8859-1 and WGL4 characters, Unicode control characters, * etc.) have a column width of 1. * * This implementation assumes that wchar_t characters are encoded * in ISO 10646. */ static int ucs_wcwidth(pg_wchar ucs) { /* sorted list of non-overlapping intervals of non-spacing characters */ static const struct mbinterval combining[] = { {0x0300, 0x034E}, {0x0360, 0x0362}, {0x0483, 0x0486}, {0x0488, 0x0489}, {0x0591, 0x05A1}, {0x05A3, 0x05B9}, {0x05BB, 0x05BD}, {0x05BF, 0x05BF}, {0x05C1, 0x05C2}, {0x05C4, 0x05C4}, {0x064B, 0x0655}, {0x0670, 0x0670}, {0x06D6, 0x06E4}, {0x06E7, 0x06E8}, {0x06EA, 0x06ED}, {0x070F, 0x070F}, {0x0711, 0x0711}, {0x0730, 0x074A}, {0x07A6, 0x07B0}, {0x0901, 0x0902}, {0x093C, 0x093C}, {0x0941, 0x0948}, {0x094D, 0x094D}, {0x0951, 0x0954}, {0x0962, 0x0963}, {0x0981, 0x0981}, {0x09BC, 0x09BC}, {0x09C1, 0x09C4}, {0x09CD, 0x09CD}, {0x09E2, 0x09E3}, {0x0A02, 0x0A02}, {0x0A3C, 0x0A3C}, {0x0A41, 0x0A42}, {0x0A47, 0x0A48}, {0x0A4B, 0x0A4D}, {0x0A70, 0x0A71}, {0x0A81, 0x0A82}, {0x0ABC, 0x0ABC}, {0x0AC1, 0x0AC5}, {0x0AC7, 0x0AC8}, {0x0ACD, 0x0ACD}, {0x0B01, 0x0B01}, {0x0B3C, 0x0B3C}, {0x0B3F, 0x0B3F}, {0x0B41, 0x0B43}, {0x0B4D, 0x0B4D}, {0x0B56, 0x0B56}, {0x0B82, 0x0B82}, {0x0BC0, 0x0BC0}, {0x0BCD, 0x0BCD}, {0x0C3E, 0x0C40}, {0x0C46, 0x0C48}, {0x0C4A, 0x0C4D}, {0x0C55, 0x0C56}, {0x0CBF, 0x0CBF}, {0x0CC6, 0x0CC6}, {0x0CCC, 0x0CCD}, {0x0D41, 0x0D43}, {0x0D4D, 0x0D4D}, {0x0DCA, 0x0DCA}, {0x0DD2, 0x0DD4}, {0x0DD6, 0x0DD6}, {0x0E31, 0x0E31}, {0x0E34, 0x0E3A}, {0x0E47, 0x0E4E}, {0x0EB1, 0x0EB1}, {0x0EB4, 0x0EB9}, {0x0EBB, 0x0EBC}, {0x0EC8, 0x0ECD}, {0x0F18, 0x0F19}, {0x0F35, 0x0F35}, {0x0F37, 0x0F37}, {0x0F39, 0x0F39}, {0x0F71, 0x0F7E}, {0x0F80, 0x0F84}, {0x0F86, 0x0F87}, {0x0F90, 0x0F97}, {0x0F99, 0x0FBC}, {0x0FC6, 0x0FC6}, {0x102D, 0x1030}, {0x1032, 0x1032}, {0x1036, 0x1037}, {0x1039, 0x1039}, {0x1058, 0x1059}, {0x1160, 0x11FF}, {0x17B7, 0x17BD}, {0x17C6, 0x17C6}, {0x17C9, 0x17D3}, {0x180B, 0x180E}, {0x18A9, 0x18A9}, {0x200B, 0x200F}, {0x202A, 0x202E}, {0x206A, 0x206F}, {0x20D0, 0x20E3}, {0x302A, 0x302F}, {0x3099, 0x309A}, {0xFB1E, 0xFB1E}, {0xFE20, 0xFE23}, {0xFEFF, 0xFEFF}, {0xFFF9, 0xFFFB} }; /* test for 8-bit control characters */ if (ucs == 0) return 0; if (ucs < 0x20 || (ucs >= 0x7f && ucs < 0xa0) || ucs > 0x0010ffff) return -1; /* binary search in table of non-spacing characters */ if (mbbisearch(ucs, combining, sizeof(combining) / sizeof(struct mbinterval) - 1)) return 0; /* * if we arrive here, ucs is not a combining or C0/C1 control character */ return 1 + (ucs >= 0x1100 && (ucs <= 0x115f || /* Hangul Jamo init. consonants */ (ucs >= 0x2e80 && ucs <= 0xa4cf && (ucs & ~0x0011) != 0x300a && ucs != 0x303f) || /* CJK ... Yi */ (ucs >= 0xac00 && ucs <= 0xd7a3) || /* Hangul Syllables */ (ucs >= 0xf900 && ucs <= 0xfaff) || /* CJK Compatibility * Ideographs */ (ucs >= 0xfe30 && ucs <= 0xfe6f) || /* CJK Compatibility Forms */ (ucs >= 0xff00 && ucs <= 0xff5f) || /* Fullwidth Forms */ (ucs >= 0xffe0 && ucs <= 0xffe6) || (ucs >= 0x20000 && ucs <= 0x2ffff))); } static pg_wchar utf2ucs(const unsigned char *c) { /* * one char version of pg_utf2wchar_with_len. no control here, c must * point to a large enough string */ if ((*c & 0x80) == 0) return (pg_wchar) c[0]; else if ((*c & 0xe0) == 0xc0) return (pg_wchar) (((c[0] & 0x1f) << 6) | (c[1] & 0x3f)); else if ((*c & 0xf0) == 0xe0) return (pg_wchar) (((c[0] & 0x0f) << 12) | ((c[1] & 0x3f) << 6) | (c[2] & 0x3f)); else if ((*c & 0xf0) == 0xf0) return (pg_wchar) (((c[0] & 0x07) << 18) | ((c[1] & 0x3f) << 12) | ((c[2] & 0x3f) << 6) | (c[3] & 0x3f)); else /* that is an invalid code on purpose */ return 0xffffffff; } static int pg_utf_dsplen(const unsigned char *s) { return ucs_wcwidth(utf2ucs(s)); } /* * convert mule internal code to pg_wchar * caller should allocate enough space for "to" * len: length of from. * "from" not necessarily null terminated. */ static int pg_mule2wchar_with_len(const unsigned char *from, pg_wchar *to, int len) { int cnt = 0; while (len > 0 && *from) { if (IS_LC1(*from) && len >= 2) { *to = *from++ << 16; *to |= *from++; len -= 2; } else if (IS_LCPRV1(*from) && len >= 3) { from++; *to = *from++ << 16; *to |= *from++; len -= 3; } else if (IS_LC2(*from) && len >= 3) { *to = *from++ << 16; *to |= *from++ << 8; *to |= *from++; len -= 3; } else if (IS_LCPRV2(*from) && len >= 4) { from++; *to = *from++ << 16; *to |= *from++ << 8; *to |= *from++; len -= 4; } else { /* assume ASCII */ *to = (unsigned char) *from++; len--; } to++; cnt++; } *to = 0; return cnt; } int pg_mule_mblen(const unsigned char *s) { int len; if (IS_LC1(*s)) len = 2; else if (IS_LCPRV1(*s)) len = 3; else if (IS_LC2(*s)) len = 3; else if (IS_LCPRV2(*s)) len = 4; else len = 1; /* assume ASCII */ return len; } static int pg_mule_dsplen(const unsigned char *s) { int len; if (IS_LC1(*s)) len = 1; else if (IS_LCPRV1(*s)) len = 1; else if (IS_LC2(*s)) len = 2; else if (IS_LCPRV2(*s)) len = 2; else len = 1; /* assume ASCII */ return len; } /* * ISO8859-1 */ static int pg_latin12wchar_with_len(const unsigned char *from, pg_wchar *to, int len) { int cnt = 0; while (len > 0 && *from) { *to++ = *from++; len--; cnt++; } *to = 0; return cnt; } static int pg_latin1_mblen(const unsigned char *s) { return 1; } static int pg_latin1_dsplen(const unsigned char *s) { return pg_ascii_dsplen(s); } /* * SJIS */ static int pg_sjis_mblen(const unsigned char *s) { int len; if (*s >= 0xa1 && *s <= 0xdf) len = 1; /* 1 byte kana? */ else if (IS_HIGHBIT_SET(*s)) len = 2; /* kanji? */ else len = 1; /* should be ASCII */ return len; } static int pg_sjis_dsplen(const unsigned char *s) { int len; if (*s >= 0xa1 && *s <= 0xdf) len = 1; /* 1 byte kana? */ else if (IS_HIGHBIT_SET(*s)) len = 2; /* kanji? */ else len = pg_ascii_dsplen(s); /* should be ASCII */ return len; } /* * Big5 */ static int pg_big5_mblen(const unsigned char *s) { int len; if (IS_HIGHBIT_SET(*s)) len = 2; /* kanji? */ else len = 1; /* should be ASCII */ return len; } static int pg_big5_dsplen(const unsigned char *s) { int len; if (IS_HIGHBIT_SET(*s)) len = 2; /* kanji? */ else len = pg_ascii_dsplen(s); /* should be ASCII */ return len; } /* * GBK */ static int pg_gbk_mblen(const unsigned char *s) { int len; if (IS_HIGHBIT_SET(*s)) len = 2; /* kanji? */ else len = 1; /* should be ASCII */ return len; } static int pg_gbk_dsplen(const unsigned char *s) { int len; if (IS_HIGHBIT_SET(*s)) len = 2; /* kanji? */ else len = pg_ascii_dsplen(s); /* should be ASCII */ return len; } /* * UHC */ static int pg_uhc_mblen(const unsigned char *s) { int len; if (IS_HIGHBIT_SET(*s)) len = 2; /* 2byte? */ else len = 1; /* should be ASCII */ return len; } static int pg_uhc_dsplen(const unsigned char *s) { int len; if (IS_HIGHBIT_SET(*s)) len = 2; /* 2byte? */ else len = pg_ascii_dsplen(s); /* should be ASCII */ return len; } /* * * GB18030 * * Added by Bill Huang , * */ static int pg_gb18030_mblen(const unsigned char *s) { int len; if (!IS_HIGHBIT_SET(*s)) len = 1; /* ASCII */ else { if ((*(s + 1) >= 0x40 && *(s + 1) <= 0x7e) || (*(s + 1) >= 0x80 && *(s + 1) <= 0xfe)) len = 2; else if (*(s + 1) >= 0x30 && *(s + 1) <= 0x39) len = 4; else len = 2; } return len; } static int pg_gb18030_dsplen(const unsigned char *s) { int len; if (IS_HIGHBIT_SET(*s)) len = 2; else len = pg_ascii_dsplen(s); /* ASCII */ return len; } /* *------------------------------------------------------------------- * multibyte sequence validators * * These functions accept "s", a pointer to the first byte of a string, * and "len", the remaining length of the string. If there is a validly * encoded character beginning at *s, return its length in bytes; else * return -1. * * The functions can assume that len > 0 and that *s != '\0', but they must * test for and reject zeroes in any additional bytes of a multibyte character. * * Note that this definition allows the function for a single-byte * encoding to be just "return 1". *------------------------------------------------------------------- */ static int pg_ascii_verifier(const unsigned char *s, int len) { return 1; } #define IS_EUC_RANGE_VALID(c) ((c) >= 0xa1 && (c) <= 0xfe) static int pg_eucjp_verifier(const unsigned char *s, int len) { int l; unsigned char c1, c2; c1 = *s++; switch (c1) { case SS2: /* JIS X 0201 */ l = 2; if (l > len) return -1; c2 = *s++; if (c2 < 0xa1 || c2 > 0xdf) return -1; break; case SS3: /* JIS X 0212 */ l = 3; if (l > len) return -1; c2 = *s++; if (!IS_EUC_RANGE_VALID(c2)) return -1; c2 = *s++; if (!IS_EUC_RANGE_VALID(c2)) return -1; break; default: if (IS_HIGHBIT_SET(c1)) /* JIS X 0208? */ { l = 2; if (l > len) return -1; if (!IS_EUC_RANGE_VALID(c1)) return -1; c2 = *s++; if (!IS_EUC_RANGE_VALID(c2)) return -1; } else /* must be ASCII */ { l = 1; } break; } return l; } static int pg_euckr_verifier(const unsigned char *s, int len) { int l; unsigned char c1, c2; c1 = *s++; if (IS_HIGHBIT_SET(c1)) { l = 2; if (l > len) return -1; if (!IS_EUC_RANGE_VALID(c1)) return -1; c2 = *s++; if (!IS_EUC_RANGE_VALID(c2)) return -1; } else /* must be ASCII */ { l = 1; } return l; } /* EUC-CN byte sequences are exactly same as EUC-KR */ #define pg_euccn_verifier pg_euckr_verifier static int pg_euctw_verifier(const unsigned char *s, int len) { int l; unsigned char c1, c2; c1 = *s++; switch (c1) { case SS2: /* CNS 11643 Plane 1-7 */ l = 4; if (l > len) return -1; c2 = *s++; if (c2 < 0xa1 || c2 > 0xa7) return -1; c2 = *s++; if (!IS_EUC_RANGE_VALID(c2)) return -1; c2 = *s++; if (!IS_EUC_RANGE_VALID(c2)) return -1; break; case SS3: /* unused */ return -1; default: if (IS_HIGHBIT_SET(c1)) /* CNS 11643 Plane 1 */ { l = 2; if (l > len) return -1; /* no further range check on c1? */ c2 = *s++; if (!IS_EUC_RANGE_VALID(c2)) return -1; } else /* must be ASCII */ { l = 1; } break; } return l; } static int pg_johab_verifier(const unsigned char *s, int len) { int l, mbl; unsigned char c; l = mbl = pg_johab_mblen(s); if (len < l) return -1; if (!IS_HIGHBIT_SET(*s)) return mbl; while (--l > 0) { c = *++s; if (!IS_EUC_RANGE_VALID(c)) return -1; } return mbl; } static int pg_mule_verifier(const unsigned char *s, int len) { int l, mbl; unsigned char c; l = mbl = pg_mule_mblen(s); if (len < l) return -1; while (--l > 0) { c = *++s; if (!IS_HIGHBIT_SET(c)) return -1; } return mbl; } static int pg_latin1_verifier(const unsigned char *s, int len) { return 1; } static int pg_sjis_verifier(const unsigned char *s, int len) { int l, mbl; unsigned char c1, c2; l = mbl = pg_sjis_mblen(s); if (len < l) return -1; if (l == 1) /* pg_sjis_mblen already verified it */ return mbl; c1 = *s++; c2 = *s; if (!ISSJISHEAD(c1) || !ISSJISTAIL(c2)) return -1; return mbl; } static int pg_big5_verifier(const unsigned char *s, int len) { int l, mbl; l = mbl = pg_big5_mblen(s); if (len < l) return -1; while (--l > 0) { if (*++s == '\0') return -1; } return mbl; } static int pg_gbk_verifier(const unsigned char *s, int len) { int l, mbl; l = mbl = pg_gbk_mblen(s); if (len < l) return -1; while (--l > 0) { if (*++s == '\0') return -1; } return mbl; } static int pg_uhc_verifier(const unsigned char *s, int len) { int l, mbl; l = mbl = pg_uhc_mblen(s); if (len < l) return -1; while (--l > 0) { if (*++s == '\0') return -1; } return mbl; } static int pg_gb18030_verifier(const unsigned char *s, int len) { int l, mbl; l = mbl = pg_gb18030_mblen(s); if (len < l) return -1; while (--l > 0) { if (*++s == '\0') return -1; } return mbl; } static int pg_utf8_verifier(const unsigned char *s, int len) { int l = pg_utf_mblen(s); if (len < l) return -1; if (!pg_utf8_islegal(s, l)) return -1; return l; } /* * Check for validity of a single UTF-8 encoded character * * This directly implements the rules in RFC3629. The bizarre-looking * restrictions on the second byte are meant to ensure that there isn't * more than one encoding of a given Unicode character point; that is, * you may not use a longer-than-necessary byte sequence with high order * zero bits to represent a character that would fit in fewer bytes. * To do otherwise is to create security hazards (eg, create an apparent * non-ASCII character that decodes to plain ASCII). * * length is assumed to have been obtained by pg_utf_mblen(), and the * caller must have checked that that many bytes are present in the buffer. */ bool pg_utf8_islegal(const unsigned char *source, int length) { unsigned char a; switch (length) { default: /* reject lengths 5 and 6 for now */ return false; case 4: a = source[3]; if (a < 0x80 || a > 0xBF) return false; /* FALL THRU */ case 3: a = source[2]; if (a < 0x80 || a > 0xBF) return false; /* FALL THRU */ case 2: a = source[1]; switch (*source) { case 0xE0: if (a < 0xA0 || a > 0xBF) return false; break; case 0xED: if (a < 0x80 || a > 0x9F) return false; break; case 0xF0: if (a < 0x90 || a > 0xBF) return false; break; case 0xF4: if (a < 0x80 || a > 0x8F) return false; break; default: if (a < 0x80 || a > 0xBF) return false; break; } /* FALL THRU */ case 1: a = *source; if (a >= 0x80 && a < 0xC2) return false; if (a > 0xF4) return false; break; } return true; } /* *------------------------------------------------------------------- * encoding info table *------------------------------------------------------------------- */ pg_wchar_tbl pg_wchar_table[] = { {pg_ascii2wchar_with_len, pg_ascii_mblen, pg_ascii_dsplen, pg_ascii_verifier, 1}, /* 0; PG_SQL_ASCII */ {pg_eucjp2wchar_with_len, pg_eucjp_mblen, pg_eucjp_dsplen, pg_eucjp_verifier, 3}, /* 1; PG_EUC_JP */ {pg_euccn2wchar_with_len, pg_euccn_mblen, pg_euccn_dsplen, pg_euccn_verifier, 3}, /* 2; PG_EUC_CN */ {pg_euckr2wchar_with_len, pg_euckr_mblen, pg_euckr_dsplen, pg_euckr_verifier, 3}, /* 3; PG_EUC_KR */ {pg_euctw2wchar_with_len, pg_euctw_mblen, pg_euctw_dsplen, pg_euctw_verifier, 3}, /* 4; PG_EUC_TW */ {pg_johab2wchar_with_len, pg_johab_mblen, pg_johab_dsplen, pg_johab_verifier, 3}, /* 5; PG_JOHAB */ {pg_utf2wchar_with_len, pg_utf_mblen, pg_utf_dsplen, pg_utf8_verifier, 4}, /* 6; PG_UTF8 */ {pg_mule2wchar_with_len, pg_mule_mblen, pg_mule_dsplen, pg_mule_verifier, 3}, /* 7; PG_MULE_INTERNAL */ {pg_latin12wchar_with_len, pg_latin1_mblen, pg_latin1_dsplen, pg_latin1_verifier, 1}, /* 8; PG_LATIN1 */ {pg_latin12wchar_with_len, pg_latin1_mblen, pg_latin1_dsplen, pg_latin1_verifier, 1}, /* 9; PG_LATIN2 */ {pg_latin12wchar_with_len, pg_latin1_mblen, pg_latin1_dsplen, pg_latin1_verifier, 1}, /* 10; PG_LATIN3 */ {pg_latin12wchar_with_len, pg_latin1_mblen, pg_latin1_dsplen, pg_latin1_verifier, 1}, /* 11; PG_LATIN4 */ {pg_latin12wchar_with_len, pg_latin1_mblen, pg_latin1_dsplen, pg_latin1_verifier, 1}, /* 12; PG_LATIN5 */ {pg_latin12wchar_with_len, pg_latin1_mblen, pg_latin1_dsplen, pg_latin1_verifier, 1}, /* 13; PG_LATIN6 */ {pg_latin12wchar_with_len, pg_latin1_mblen, pg_latin1_dsplen, pg_latin1_verifier, 1}, /* 14; PG_LATIN7 */ {pg_latin12wchar_with_len, pg_latin1_mblen, pg_latin1_dsplen, pg_latin1_verifier, 1}, /* 15; PG_LATIN8 */ {pg_latin12wchar_with_len, pg_latin1_mblen, pg_latin1_dsplen, pg_latin1_verifier, 1}, /* 16; PG_LATIN9 */ {pg_latin12wchar_with_len, pg_latin1_mblen, pg_latin1_dsplen, pg_latin1_verifier, 1}, /* 17; PG_LATIN10 */ {pg_latin12wchar_with_len, pg_latin1_mblen, pg_latin1_dsplen, pg_latin1_verifier, 1}, /* 18; PG_WIN1256 */ {pg_latin12wchar_with_len, pg_latin1_mblen, pg_latin1_dsplen, pg_latin1_verifier, 1}, /* 19; PG_WIN1258 */ {pg_latin12wchar_with_len, pg_latin1_mblen, pg_latin1_dsplen, pg_latin1_verifier, 1}, /* 20; PG_WIN874 */ {pg_latin12wchar_with_len, pg_latin1_mblen, pg_latin1_dsplen, pg_latin1_verifier, 1}, /* 21; PG_KOI8 */ {pg_latin12wchar_with_len, pg_latin1_mblen, pg_latin1_dsplen, pg_latin1_verifier, 1}, /* 22; PG_WIN1251 */ {pg_latin12wchar_with_len, pg_latin1_mblen, pg_latin1_dsplen, pg_latin1_verifier, 1}, /* 22; PG_WIN1252 */ {pg_latin12wchar_with_len, pg_latin1_mblen, pg_latin1_dsplen, pg_latin1_verifier, 1}, /* 23; PG_WIN866 */ {pg_latin12wchar_with_len, pg_latin1_mblen, pg_latin1_dsplen, pg_latin1_verifier, 1}, /* 24; ISO-8859-5 */ {pg_latin12wchar_with_len, pg_latin1_mblen, pg_latin1_dsplen, pg_latin1_verifier, 1}, /* 25; ISO-8859-6 */ {pg_latin12wchar_with_len, pg_latin1_mblen, pg_latin1_dsplen, pg_latin1_verifier, 1}, /* 26; ISO-8859-7 */ {pg_latin12wchar_with_len, pg_latin1_mblen, pg_latin1_dsplen, pg_latin1_verifier, 1}, /* 27; ISO-8859-8 */ {pg_latin12wchar_with_len, pg_latin1_mblen, pg_latin1_dsplen, pg_latin1_verifier, 1}, /* 28; PG_WIN1250 */ {pg_latin12wchar_with_len, pg_latin1_mblen, pg_latin1_dsplen, pg_latin1_verifier, 1}, /* 29; PG_WIN1253 */ {pg_latin12wchar_with_len, pg_latin1_mblen, pg_latin1_dsplen, pg_latin1_verifier, 1}, /* 30; PG_WIN1254 */ {pg_latin12wchar_with_len, pg_latin1_mblen, pg_latin1_dsplen, pg_latin1_verifier, 1}, /* 31; PG_WIN1255 */ {pg_latin12wchar_with_len, pg_latin1_mblen, pg_latin1_dsplen, pg_latin1_verifier, 1}, /* 32; PG_WIN1257 */ {0, pg_sjis_mblen, pg_sjis_dsplen, pg_sjis_verifier, 2}, /* 33; PG_SJIS */ {0, pg_big5_mblen, pg_big5_dsplen, pg_big5_verifier, 2}, /* 34; PG_BIG5 */ {0, pg_gbk_mblen, pg_gbk_dsplen, pg_gbk_verifier, 2}, /* 35; PG_GBK */ {0, pg_uhc_mblen, pg_uhc_dsplen, pg_uhc_verifier, 2}, /* 36; PG_UHC */ {0, pg_gb18030_mblen, pg_gb18030_dsplen, pg_gb18030_verifier, 2} /* 37; PG_GB18030 */ }; /* returns the byte length of a word for mule internal code */ int pg_mic_mblen(const unsigned char *mbstr) { return pg_mule_mblen(mbstr); } /* * Returns the byte length of a multibyte character. */ int pg_encoding_mblen(int encoding, const char *mbstr) { Assert(PG_VALID_ENCODING(encoding)); return ((encoding >= 0 && encoding < sizeof(pg_wchar_table) / sizeof(pg_wchar_tbl)) ? ((*pg_wchar_table[encoding].mblen) ((const unsigned char *) mbstr)) : ((*pg_wchar_table[PG_SQL_ASCII].mblen) ((const unsigned char *) mbstr))); } /* * Returns the display length of a multibyte character. */ int pg_encoding_dsplen(int encoding, const char *mbstr) { Assert(PG_VALID_ENCODING(encoding)); return ((encoding >= 0 && encoding < sizeof(pg_wchar_table) / sizeof(pg_wchar_tbl)) ? ((*pg_wchar_table[encoding].dsplen) ((const unsigned char *) mbstr)) : ((*pg_wchar_table[PG_SQL_ASCII].dsplen) ((const unsigned char *) mbstr))); } /* * Verify the first multibyte character of the given string. * Return its byte length if good, -1 if bad. (See comments above for * full details of the mbverify API.) */ int pg_encoding_verifymb(int encoding, const char *mbstr, int len) { Assert(PG_VALID_ENCODING(encoding)); return ((encoding >= 0 && encoding < sizeof(pg_wchar_table) / sizeof(pg_wchar_tbl)) ? ((*pg_wchar_table[encoding].mbverify) ((const unsigned char *) mbstr, len)) : ((*pg_wchar_table[PG_SQL_ASCII].mbverify) ((const unsigned char *) mbstr, len))); } /* * fetch maximum length of a given encoding */ int pg_encoding_max_length(int encoding) { Assert(PG_VALID_ENCODING(encoding)); return pg_wchar_table[encoding].maxmblen; } #ifndef FRONTEND /* * fetch maximum length of the encoding for the current database */ int pg_database_encoding_max_length(void) { return pg_wchar_table[GetDatabaseEncoding()].maxmblen; } /* * Verify mbstr to make sure that it is validly encoded in the current * database encoding. Otherwise same as pg_verify_mbstr(). */ bool pg_verifymbstr(const char *mbstr, int len, bool noError) { return pg_verify_mbstr(GetDatabaseEncoding(), mbstr, len, noError); } /* * Verify mbstr to make sure that it is validly encoded in the specified * encoding. * * mbstr is not necessarily zero terminated; length of mbstr is * specified by len. * * If OK, return TRUE. If a problem is found, return FALSE when noError is * true; when noError is false, ereport() a descriptive message. */ bool pg_verify_mbstr(int encoding, const char *mbstr, int len, bool noError) { mbverifier mbverify; Assert(PG_VALID_ENCODING(encoding)); /* * In single-byte encodings, we need only reject nulls (\0). */ if (pg_encoding_max_length(encoding) <= 1) { const char *nullpos = memchr(mbstr, 0, len); if (nullpos == NULL) return true; if (noError) return false; report_invalid_encoding(encoding, nullpos, 1); } /* fetch function pointer just once */ mbverify = pg_wchar_table[encoding].mbverify; while (len > 0) { int l; /* fast path for ASCII-subset characters */ if (!IS_HIGHBIT_SET(*mbstr)) { if (*mbstr != '\0') { mbstr++; len--; continue; } if (noError) return false; report_invalid_encoding(encoding, mbstr, len); } l = (*mbverify) ((const unsigned char *) mbstr, len); if (l < 0) { if (noError) return false; report_invalid_encoding(encoding, mbstr, len); } mbstr += l; len -= l; } return true; } /* * report_invalid_encoding: complain about invalid multibyte character * * note: len is remaining length of string, not length of character; * len must be greater than zero, as we always examine the first byte. */ void report_invalid_encoding(int encoding, const char *mbstr, int len) { int l = pg_encoding_mblen(encoding, mbstr); char buf[8 * 2 + 1]; char *p = buf; int j, jlimit; jlimit = Min(l, len); jlimit = Min(jlimit, 8); /* prevent buffer overrun */ for (j = 0; j < jlimit; j++) p += sprintf(p, "%02x", (unsigned char) mbstr[j]); ereport(ERROR, (errcode(ERRCODE_CHARACTER_NOT_IN_REPERTOIRE), errmsg("invalid byte sequence for encoding \"%s\": 0x%s", pg_enc2name_tbl[encoding].name, buf), errhint("This error can also happen if the byte sequence does not " "match the encoding expected by the server, which is controlled " "by \"client_encoding\"."))); } /* * report_untranslatable_char: complain about untranslatable character * * note: len is remaining length of string, not length of character; * len must be greater than zero, as we always examine the first byte. */ void report_untranslatable_char(int src_encoding, int dest_encoding, const char *mbstr, int len) { int l = pg_encoding_mblen(src_encoding, mbstr); char buf[8 * 2 + 1]; char *p = buf; int j, jlimit; jlimit = Min(l, len); jlimit = Min(jlimit, 8); /* prevent buffer overrun */ for (j = 0; j < jlimit; j++) p += sprintf(p, "%02x", (unsigned char) mbstr[j]); ereport(ERROR, (errcode(ERRCODE_UNTRANSLATABLE_CHARACTER), errmsg("character 0x%s of encoding \"%s\" has no equivalent in \"%s\"", buf, pg_enc2name_tbl[src_encoding].name, pg_enc2name_tbl[dest_encoding].name))); } #endif