From: Olaf Weber <olaf@xxxxxxx> Supporting functions for UTF-8 normalization are in utf8norm.c with the header utf8norm.h. Two normalization forms are supported: nfkdi and nfkdicf. nfkdi: - Apply unicode normalization form NFKD. - Remove any Default_Ignorable_Code_Point. nfkdicf: - Apply unicode normalization form NFKD. - Remove any Default_Ignorable_Code_Point. - Apply a full casefold (C + F). For the purposes of the code, a string is valid UTF-8 if: - The values encoded are 0x1..0x10FFFF. - The surrogate codepoints 0xD800..0xDFFFF are not encoded. - The shortest possible encoding is used for all values. The supporting functions work on null-terminated strings (utf8 prefix) and on length-limited strings (utf8n prefix). Signed-off-by: Olaf Weber <olaf@xxxxxxx> --- include/utf8norm.h | 111 ++++++++++ libxfs/Makefile | 1 + libxfs/utf8norm.c | 628 +++++++++++++++++++++++++++++++++++++++++++++++++++++ 3 files changed, 740 insertions(+) create mode 100644 include/utf8norm.h create mode 100644 libxfs/utf8norm.c diff --git a/include/utf8norm.h b/include/utf8norm.h new file mode 100644 index 0000000..6aa3391 --- /dev/null +++ b/include/utf8norm.h @@ -0,0 +1,111 @@ +/* + * Copyright (c) 2014 SGI. + * All rights reserved. + * + * This program is free software; you can redistribute it and/or + * modify it under the terms of the GNU General Public License as + * published by the Free Software Foundation. + * + * This program is distributed in the hope that it would be useful, + * but WITHOUT ANY WARRANTY; without even the implied warranty of + * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the + * GNU General Public License for more details. + * + * You should have received a copy of the GNU General Public License + * along with this program; if not, write the Free Software Foundation, + * Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA + */ + +#ifndef UTF8NORM_H +#define UTF8NORM_H + +/* An opaque type used to determine the normalization in use. */ +typedef const struct utf8data *utf8data_t; + +/* Encoding a unicode version number as a single unsigned int. */ +#define UNICODE_MAJ_SHIFT (16) +#define UNICODE_MIN_SHIFT (8) + +#define UNICODE_AGE(MAJ,MIN,REV) \ + (((unsigned int)(MAJ) << UNICODE_MAJ_SHIFT) | \ + ((unsigned int)(MIN) << UNICODE_MIN_SHIFT) | \ + ((unsigned int)(REV))) + +/* Highest unicode version supported by the data tables. */ +extern const unsigned int utf8version; + +/* + * Look for the correct utf8data_t for a unicode version. + * Returns NULL if the version requested is too new. + * + * Two normalization forms are supported: nfkdi and nfkdicf. + * + * nfkdi: + * - Apply unicode normalization form NFKD. + * - Remove any Default_Ignorable_Code_Point. + * + * nfkdicf: + * - Apply unicode normalization form NFKD. + * - Remove any Default_Ignorable_Code_Point. + * - Apply a full casefold (C + F). + */ +extern utf8data_t utf8nfkdi(unsigned int); +extern utf8data_t utf8nfkdicf(unsigned int); + +/* + * Determine the maximum age of any unicode character in the string. + * Returns 0 if only unassigned code points are present. + * Returns -1 if the input is not valid UTF-8. + */ +extern int utf8agemax(utf8data_t, const char *); +extern int utf8nagemax(utf8data_t, const char *, size_t); + +/* + * Determine the minimum age of any unicode character in the string. + * Returns 0 if any unassigned code points are present. + * Returns -1 if the input is not valid UTF-8. + */ +extern int utf8agemin(utf8data_t, const char *); +extern int utf8nagemin(utf8data_t, const char *, size_t); + +/* + * Determine the length of the normalized from of the string, + * excluding any terminating NULL byte. + * Returns 0 if only ignorable code points are present. + * Returns -1 if the input is not valid UTF-8. + */ +extern ssize_t utf8len(utf8data_t, const char *); +extern ssize_t utf8nlen(utf8data_t, const char *, size_t); + +/* + * Cursor structure used by the normalizer. + */ +struct utf8cursor { + utf8data_t data; + const char *s; + const char *p; + const char *ss; + const char *sp; + unsigned int len; + unsigned int slen; + short int ccc; + short int nccc; +}; + +/* + * Initialize a utf8cursor to normalize a string. + * Returns 0 on success. + * Returns -1 on failure. + */ +extern int utf8cursor(struct utf8cursor *, utf8data_t, const char *); +extern int utf8ncursor(struct utf8cursor *, utf8data_t, const char *, size_t); + +/* + * Get the next byte in the normalization. + * Returns a value > 0 && < 256 on success. + * Returns 0 when the end of the normalization is reached. + * Returns -1 if the string being normalized is not valid UTF-8. + */ +extern int utf8byte(struct utf8cursor *); + +#endif /* UTF8NORM_H */ diff --git a/libxfs/Makefile b/libxfs/Makefile index ae15a5d..a1e85ef 100644 --- a/libxfs/Makefile +++ b/libxfs/Makefile @@ -14,6 +14,7 @@ HFILES = xfs.h init.h xfs_dir2_priv.h crc32defs.h crc32table.h CFILES = cache.c \ crc32.c \ init.c kmem.c logitem.c radix-tree.c rdwr.c trans.c util.c \ + utf8norm.c \ xfs_alloc.c \ xfs_alloc_btree.c \ xfs_attr.c \ diff --git a/libxfs/utf8norm.c b/libxfs/utf8norm.c new file mode 100644 index 0000000..6232d1a --- /dev/null +++ b/libxfs/utf8norm.c @@ -0,0 +1,628 @@ +/* + * Copyright (c) 2014 SGI. + * All rights reserved. + * + * This program is free software; you can redistribute it and/or + * modify it under the terms of the GNU General Public License as + * published by the Free Software Foundation. + * + * This program is distributed in the hope that it would be useful, + * but WITHOUT ANY WARRANTY; without even the implied warranty of + * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the + * GNU General Public License for more details. + * + * You should have received a copy of the GNU General Public License + * along with this program; if not, write the Free Software Foundation, + * Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA + */ + +#include "xfs.h" +#include "xfs_types.h" +#include <utf8norm.h> + +struct utf8data { + unsigned int maxage; + unsigned int offset; +}; + +#define __INCLUDED_FROM_UTF8NORM_C__ +#include <utf8data.h> +#undef __INCLUDED_FROM_UTF8NORM_C__ + +/* + * UTF-8 valid ranges. + * + * The UTF-8 encoding spreads the bits of a 32bit word over several + * bytes. This table gives the ranges that can be held and how they'd + * be represented. + * + * 0x00000000 0x0000007F: 0xxxxxxx + * 0x00000000 0x000007FF: 110xxxxx 10xxxxxx + * 0x00000000 0x0000FFFF: 1110xxxx 10xxxxxx 10xxxxxx + * 0x00000000 0x001FFFFF: 11110xxx 10xxxxxx 10xxxxxx 10xxxxxx + * 0x00000000 0x03FFFFFF: 111110xx 10xxxxxx 10xxxxxx 10xxxxxx 10xxxxxx + * 0x00000000 0x7FFFFFFF: 1111110x 10xxxxxx 10xxxxxx 10xxxxxx 10xxxxxx 10xxxxxx + * + * There is an additional requirement on UTF-8, in that only the + * shortest representation of a 32bit value is to be used. A decoder + * must not decode sequences that do not satisfy this requirement. + * Thus the allowed ranges have a lower bound. + * + * 0x00000000 0x0000007F: 0xxxxxxx + * 0x00000080 0x000007FF: 110xxxxx 10xxxxxx + * 0x00000800 0x0000FFFF: 1110xxxx 10xxxxxx 10xxxxxx + * 0x00010000 0x001FFFFF: 11110xxx 10xxxxxx 10xxxxxx 10xxxxxx + * 0x00200000 0x03FFFFFF: 111110xx 10xxxxxx 10xxxxxx 10xxxxxx 10xxxxxx + * 0x04000000 0x7FFFFFFF: 1111110x 10xxxxxx 10xxxxxx 10xxxxxx 10xxxxxx 10xxxxxx + * + * Actual unicode characters are limited to the range 0x0 - 0x10FFFF, + * 17 planes of 65536 values. This limits the sequences actually seen + * even more, to just the following. + * + * 0 - 0x7F: 0 - 0x7F + * 0x80 - 0x7FF: 0xC2 0x80 - 0xDF 0xBF + * 0x800 - 0xFFFF: 0xE0 0xA0 0x80 - 0xEF 0xBF 0xBF + * 0x10000 - 0x10FFFF: 0xF0 0x90 0x80 0x80 - 0xF4 0x8F 0xBF 0xBF + * + * Within those ranges the surrogates 0xD800 - 0xDFFF are not allowed. + * + * Note that the longest sequence seen with valid usage is 4 bytes, + * the same a single UTF-32 character. This makes the UTF-8 + * representation of Unicode strictly smaller than UTF-32. + * + * The shortest sequence requirement was introduced by: + * Corrigendum #1: UTF-8 Shortest Form + * It can be found here: + * http://www.unicode.org/versions/corrigendum1.html + * + */ + +/* + * Return the number of bytes used by the current UTF-8 sequence. + * Assumes the input points to the first byte of a valid UTF-8 + * sequence. + */ +static inline int +utf8clen(const char *s) +{ + unsigned char c = *s; + return 1 + (c >= 0xC0) + (c >= 0xE0) + (c >= 0xF0); +} + +/* + * utf8trie_t + * + * A compact binary tree, used to decode UTF-8 characters. + * + * Internal nodes are one byte for the node itself, and up to three + * bytes for an offset into the tree. The first byte contains the + * following information: + * NEXTBYTE - flag - advance to next byte if set + * BITNUM - 3 bit field - the bit number to tested + * OFFLEN - 2 bit field - number of bytes in the offset + * if offlen == 0 (non-branching node) + * RIGHTPATH - 1 bit field - set if the following node is for the + * right-hand path (tested bit is set) + * TRIENODE - 1 bit field - set if the following node is an internal + * node, otherwise it is a leaf node + * if offlen != 0 (branching node) + * LEFTNODE - 1 bit field - set if the left-hand node is internal + * RIGHTNODE - 1 bit field - set if the right-hand node is internal + * + * Due to the way utf8 works, there cannot be branching nodes with + * NEXTBYTE set, and moreover those nodes always have a righthand + * descendant. + */ +typedef const unsigned char utf8trie_t; +#define BITNUM 0x07 +#define NEXTBYTE 0x08 +#define OFFLEN 0x30 +#define OFFLEN_SHIFT 4 +#define RIGHTPATH 0x40 +#define TRIENODE 0x80 +#define RIGHTNODE 0x40 +#define LEFTNODE 0x80 + +/* + * utf8leaf_t + * + * The leaves of the trie are embedded in the trie, and so the same + * underlying datatype: unsigned char. + * + * leaf[0]: The unicode version, stored as a generation number that is + * an index into utf8agetab[]. With this we can filter code + * points based on the unicode version in which they were + * defined. The CCC of a non-defined code point is 0. + * leaf[1]: Canonical Combining Class. During normalization, we need + * to do a stable sort into ascending order of all characters + * with a non-zero CCC that occur between two characters with + * a CCC of 0, or at the begin or end of a string. + * The unicode standard guarantees that all CCC values are + * between 0 and 254 inclusive, which leaves 255 available as + * a special value. + * Code points with CCC 0 are known as stoppers. + * leaf[2]: Decomposition. If leaf[1] == 255, then leaf[2] is the + * start of a NUL-terminated string that is the decomposition + * of the character. + * The CCC of a decomposable character is the same as the CCC + * of the first character of its decomposition. + * Some characters decompose as the empty string: these are + * characters with the Default_Ignorable_Code_Point property. + * These do affect normalization, as they all have CCC 0. + * + * The decompositions in the trie have been fully expanded. + * + * Casefolding, if applicable, is also done using decompositions. + * + * The trie is constructed in such a way that leaves exist for all + * UTF-8 sequences that match the criteria from the "UTF-8 valid + * ranges" comment above, and only for those sequences. Therefore a + * lookup in the trie can be used to validate the UTF-8 input. + */ +typedef const unsigned char utf8leaf_t; + +#define LEAF_GEN(LEAF) ((LEAF)[0]) +#define LEAF_CCC(LEAF) ((LEAF)[1]) +#define LEAF_STR(LEAF) ((const char*)((LEAF) + 2)) + +#define MINCCC (0) +#define MAXCCC (254) +#define STOPPER (0) +#define DECOMPOSE (255) + +/* + * Use trie to scan s, touching at most len bytes. + * Returns the leaf if one exists, NULL otherwise. + * + * A non-NULL return guarantees that the UTF-8 sequence starting at s + * is well-formed and corresponds to a known unicode code point. The + * shorthand for this will be "is valid UTF-8 unicode". + */ +static utf8leaf_t * +utf8nlookup(utf8data_t data, const char *s, size_t len) +{ + utf8trie_t *trie = utf8data + data->offset; + int offlen; + int offset; + int mask; + int node; + + if (!data) + return NULL; + if (len == 0) + return NULL; + node = 1; + while (node) { + offlen = (*trie & OFFLEN) >> OFFLEN_SHIFT; + if (*trie & NEXTBYTE) { + if (--len == 0) + return NULL; + s++; + } + mask = 1 << (*trie & BITNUM); + if (*s & mask) { + /* Right leg */ + if (offlen) { + /* Right node at offset of trie */ + node = (*trie & RIGHTNODE); + offset = trie[offlen]; + while (--offlen) { + offset <<= 8; + offset |= trie[offlen]; + } + trie += offset; + } else if (*trie & RIGHTPATH) { + /* Right node after this node */ + node = (*trie & TRIENODE); + trie++; + } else { + /* No right node. */ + node = 0; + trie = NULL; + } + } else { + /* Left leg */ + if (offlen) { + /* Left node after this node. */ + node = (*trie & LEFTNODE); + trie += offlen + 1; + } else if (*trie & RIGHTPATH) { + /* No left node. */ + node = 0; + trie = NULL; + } else { + /* Left node after this node */ + node = (*trie & TRIENODE); + trie++; + } + } + } + return trie; +} + +/* + * Use trie to scan s. + * Returns the leaf if one exists, NULL otherwise. + * + * Forwards to utf8nlookup(). + */ +static utf8leaf_t * +utf8lookup(utf8data_t data, const char *s) +{ + return utf8nlookup(data, s, (size_t)-1); +} + +/* + * Maximum age of any character in s. + * Return -1 if s is not valid UTF-8 unicode. + * Return 0 if only non-assigned code points are used. + */ +int +utf8agemax(utf8data_t data, const char *s) +{ + utf8leaf_t *leaf; + int age = 0; + int leaf_age; + + if (!data) + return -1; + while (*s) { + if (!(leaf = utf8lookup(data, s))) + return -1; + leaf_age = utf8agetab[LEAF_GEN(leaf)]; + if (leaf_age <= data->maxage && leaf_age > age) + age = leaf_age; + s += utf8clen(s); + } + return age; +} + +/* + * Minimum age of any character in s. + * Return -1 if s is not valid UTF-8 unicode. + * Return 0 if non-assigned code points are used. + */ +int +utf8agemin(utf8data_t data, const char *s) +{ + utf8leaf_t *leaf; + int age = data->maxage; + int leaf_age; + + if (!data) + return -1; + while (*s) { + if (!(leaf = utf8lookup(data, s))) + return -1; + leaf_age = utf8agetab[LEAF_GEN(leaf)]; + if (leaf_age <= data->maxage && leaf_age < age) + age = leaf_age; + s += utf8clen(s); + } + return age; +} + +/* + * Maximum age of any character in s, touch at most len bytes. + * Return -1 if s is not valid UTF-8 unicode. + */ +int +utf8nagemax(utf8data_t data, const char *s, size_t len) +{ + utf8leaf_t *leaf; + int age = 0; + int leaf_age; + + if (!data) + return -1; + while (len && *s) { + if (!(leaf = utf8nlookup(data, s, len))) + return -1; + leaf_age = utf8agetab[LEAF_GEN(leaf)]; + if (leaf_age <= data->maxage && leaf_age > age) + age = leaf_age; + len -= utf8clen(s); + s += utf8clen(s); + } + return age; +} + +/* + * Maximum age of any character in s, touch at most len bytes. + * Return -1 if s is not valid UTF-8 unicode. + */ +int +utf8nagemin(utf8data_t data, const char *s, size_t len) +{ + utf8leaf_t *leaf; + int leaf_age; + int age = data->maxage; + + if (!data) + return -1; + while (len && *s) { + if (!(leaf = utf8nlookup(data, s, len))) + return -1; + leaf_age = utf8agetab[LEAF_GEN(leaf)]; + if (leaf_age <= data->maxage && leaf_age < age) + age = leaf_age; + len -= utf8clen(s); + s += utf8clen(s); + } + return age; +} + +/* + * Length of the normalization of s. + * Return -1 if s is not valid UTF-8 unicode. + * + * A string of Default_Ignorable_Code_Point has length 0. + */ +ssize_t +utf8len(utf8data_t data, const char *s) +{ + utf8leaf_t *leaf; + size_t ret = 0; + + if (!data) + return -1; + while (*s) { + if (!(leaf = utf8lookup(data, s))) + return -1; + if (utf8agetab[LEAF_GEN(leaf)] > data->maxage) + ret += utf8clen(s); + else if (LEAF_CCC(leaf) == DECOMPOSE) + ret += strlen(LEAF_STR(leaf)); + else + ret += utf8clen(s); + s += utf8clen(s); + } + return ret; +} + +/* + * Length of the normalization of s, touch at most len bytes. + * Return -1 if s is not valid UTF-8 unicode. + */ +ssize_t +utf8nlen(utf8data_t data, const char *s, size_t len) +{ + utf8leaf_t *leaf; + size_t ret = 0; + + if (!data) + return -1; + while (len && *s) { + if (!(leaf = utf8nlookup(data, s, len))) + return -1; + if (utf8agetab[LEAF_GEN(leaf)] > data->maxage) + ret += utf8clen(s); + else if (LEAF_CCC(leaf) == DECOMPOSE) + ret += strlen(LEAF_STR(leaf)); + else + ret += utf8clen(s); + len -= utf8clen(s); + s += utf8clen(s); + } + return ret; +} + +/* + * Set up an utf8cursor for use by utf8byte(). + * + * u8c : pointer to cursor. + * data : utf8data_t to use for normalization. + * s : string. + * len : length of s. + * + * Returns -1 on error, 0 on success. + */ +int +utf8ncursor( + struct utf8cursor *u8c, + utf8data_t data, + const char *s, + size_t len) +{ + if (!data) + return -1; + if (!s) + return -1; + u8c->data = data; + u8c->s = s; + u8c->p = NULL; + u8c->ss = NULL; + u8c->sp = NULL; + u8c->len = len; + u8c->slen = 0; + u8c->ccc = STOPPER; + u8c->nccc = STOPPER; + /* Check we didn't clobber the maximum length. */ + if (u8c->len != len) + return -1; + /* The first byte of s may not be an utf8 continuation. */ + if (len > 0 && (*s & 0xC0) == 0x80) + return -1; + return 0; +} + +/* + * Set up an utf8cursor for use by utf8byte(). + * + * u8c : pointer to cursor. + * data : utf8data_t to use for normalization. + * s : NUL-terminated string. + * + * Returns -1 on error, 0 on success. + */ +int +utf8cursor( + struct utf8cursor *u8c, + utf8data_t data, + const char *s) +{ + return utf8ncursor(u8c, data, s, (unsigned int)-1); +} + +/* + * Get one byte from the normalized form of the string described by u8c. + * + * Returns the byte cast to an unsigned char on succes, and -1 on failure. + * + * The cursor keeps track of the location in the string in u8c->s. + * When a character is decomposed, the current location is stored in + * u8c->p, and u8c->s is set to the start of the decomposition. Note + * that bytes from a decomposition do not count against u8c->len. + * + * Characters are emitted if they match the current CCC in u8c->ccc. + * Hitting end-of-string while u8c->ccc == STOPPER means we're done, + * and the function returns 0 in that case. + * + * Sorting by CCC is done by repeatedly scanning the string. The + * values of u8c->s and u8c->p are stored in u8c->ss and u8c->sp at + * the start of the scan. The first pass finds the lowest CCC to be + * emitted and stores it in u8c->nccc, the second pass emits the + * characters with this CCC and finds the next lowest CCC. This limits + * the number of passes to 1 + the number of different CCCs in the + * sequence being scanned. + * + * Therefore: + * u8c->p != NULL -> a decomposition is being scanned. + * u8c->ss != NULL -> this is a repeating scan. + * u8c->ccc == -1 -> this is the first scan of a repeating scan. + */ +int +utf8byte(struct utf8cursor *u8c) +{ + utf8leaf_t *leaf; + int ccc; + + for (;;) { + /* Check for the end of a decomposed character. */ + if (u8c->p && *u8c->s == '\0') { + u8c->s = u8c->p; + u8c->p = NULL; + } + + /* Check for end-of-string. */ + if (!u8c->p && (u8c->len == 0 || *u8c->s == '\0')) { + /* There is no next byte. */ + if (u8c->ccc == STOPPER) + return 0; + /* End-of-string during a scan counts as a stopper. */ + ccc = STOPPER; + goto ccc_mismatch; + } else if ((*u8c->s & 0xC0) == 0x80) { + /* This is a continuation of the current character. */ + if (!u8c->p) + u8c->len--; + return (unsigned char)*u8c->s++; + } + + /* Look up the data for the current character. */ + if (u8c->p) + leaf = utf8lookup(u8c->data, u8c->s); + else + leaf = utf8nlookup(u8c->data, u8c->s, u8c->len); + + /* No leaf found implies that the input is a binary blob. */ + if (!leaf) + return -1; + + /* Characters that are too new have CCC 0. */ + if (utf8agetab[LEAF_GEN(leaf)] > u8c->data->maxage) { + ccc = STOPPER; + } else if ((ccc = LEAF_CCC(leaf)) == DECOMPOSE) { + u8c->len -= utf8clen(u8c->s); + u8c->p = u8c->s + utf8clen(u8c->s); + u8c->s = LEAF_STR(leaf); + /* Empty decomposition implies CCC 0. */ + if (*u8c->s == '\0') { + if (u8c->ccc == STOPPER) + continue; + ccc = STOPPER; + goto ccc_mismatch; + } + leaf = utf8lookup(u8c->data, u8c->s); + ccc = LEAF_CCC(leaf); + } + + /* + * If this is not a stopper, then see if it updates + * the next canonical class to be emitted. + */ + if (ccc != STOPPER && u8c->ccc < ccc && ccc < u8c->nccc) + u8c->nccc = ccc; + + /* + * Return the current byte if this is the current + * combining class. + */ + if (ccc == u8c->ccc) { + if (!u8c->p) + u8c->len--; + return (unsigned char)*u8c->s++; + } + + /* Current combining class mismatch. */ + ccc_mismatch: + if (u8c->nccc == STOPPER) { + /* + * Scan forward for the first canonical class + * to be emitted. Save the position from + * which to restart. + */ + u8c->ccc = MINCCC - 1; + u8c->nccc = ccc; + u8c->sp = u8c->p; + u8c->ss = u8c->s; + u8c->slen = u8c->len; + if (!u8c->p) + u8c->len -= utf8clen(u8c->s); + u8c->s += utf8clen(u8c->s); + } else if (ccc != STOPPER) { + /* Not a stopper, and not the ccc we're emitting. */ + if (!u8c->p) + u8c->len -= utf8clen(u8c->s); + u8c->s += utf8clen(u8c->s); + } else if (u8c->nccc != MAXCCC + 1) { + /* At a stopper, restart for next ccc. */ + u8c->ccc = u8c->nccc; + u8c->nccc = MAXCCC + 1; + u8c->s = u8c->ss; + u8c->p = u8c->sp; + u8c->len = u8c->slen; + } else { + /* All done, proceed from here. */ + u8c->ccc = STOPPER; + u8c->nccc = STOPPER; + u8c->sp = NULL; + u8c->ss = NULL; + u8c->slen = 0; + } + } +} + +const struct utf8data * +utf8nfkdi(unsigned int maxage) +{ + int i = sizeof(utf8nfkdidata)/sizeof(utf8nfkdidata[0]) - 1; + + while (maxage < utf8nfkdidata[i].maxage) + i--; + if (maxage > utf8nfkdidata[i].maxage) + return NULL; + return &utf8nfkdidata[i]; +} + +const struct utf8data * +utf8nfkdicf(unsigned int maxage) +{ + int i = sizeof(utf8nfkdicfdata)/sizeof(utf8nfkdicfdata[0]) - 1; + + while (maxage < utf8nfkdicfdata[i].maxage) + i--; + if (maxage > utf8nfkdicfdata[i].maxage) + return NULL; + return &utf8nfkdicfdata[i]; +} -- 1.7.12.4 _______________________________________________ xfs mailing list xfs@xxxxxxxxxxx http://oss.sgi.com/mailman/listinfo/xfs