/* * Copyright 2005 John M Bell * * This file is part of NetSurf, http://www.netsurf-browser.org/ * * NetSurf 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; version 2 of the License. * * NetSurf 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 General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ /** \file * UTF-8 manipulation functions (implementation). */ #include #include #include #include #include #include #include #include "utils/config.h" #include "utils/log.h" #include "utils/utf8.h" #include "netsurf/utf8.h" #include "desktop/gui_internal.h" /* exported interface documented in utils/utf8.h */ uint32_t utf8_to_ucs4(const char *s_in, size_t l) { uint32_t ucs4; size_t len; parserutils_error perror; perror = parserutils_charset_utf8_to_ucs4((const uint8_t *) s_in, l, &ucs4, &len); if (perror != PARSERUTILS_OK) ucs4 = 0xfffd; return ucs4; } /* exported interface documented in utils/utf8.h */ size_t utf8_from_ucs4(uint32_t c, char *s) { uint8_t *in = (uint8_t *) s; size_t len = 6; parserutils_error perror; perror = parserutils_charset_utf8_from_ucs4(c, &in, &len); if (perror != PARSERUTILS_OK) { s[0] = 0xef; s[1] = 0xbf; s[2] = 0xbd; return 3; } return 6 - len; } /* exported interface documented in utils/utf8.h */ size_t utf8_length(const char *s) { return utf8_bounded_length(s, strlen(s)); } /* exported interface documented in utils/utf8.h */ size_t utf8_bounded_length(const char *s, size_t l) { size_t len; parserutils_error perror; perror = parserutils_charset_utf8_length((const uint8_t *) s, l, &len); if (perror != PARSERUTILS_OK) return 0; return len; } /* exported interface documented in utils/utf8.h */ size_t utf8_bounded_byte_length(const char *s, size_t l, size_t c) { size_t len = 0; while (len < l && c-- > 0) len = utf8_next(s, l, len); return len; } /* exported interface documented in utils/utf8.h */ size_t utf8_char_byte_length(const char *s) { size_t len; parserutils_error perror; perror = parserutils_charset_utf8_char_byte_length((const uint8_t *) s, &len); assert(perror == PARSERUTILS_OK); return len; } /* exported interface documented in utils/utf8.h */ size_t utf8_prev(const char *s, size_t o) { uint32_t prev; parserutils_error perror; perror = parserutils_charset_utf8_prev((const uint8_t *) s, o, &prev); assert(perror == PARSERUTILS_OK); return prev; } /* exported interface documented in utils/utf8.h */ size_t utf8_next(const char *s, size_t l, size_t o) { uint32_t next; parserutils_error perror; perror = parserutils_charset_utf8_next((const uint8_t *) s, l, o, &next); assert(perror == PARSERUTILS_OK); return next; } /* Cache of previous iconv conversion descriptor used by utf8_convert */ static struct { char from[32]; /**< Encoding name to convert from */ char to[32]; /**< Encoding name to convert to */ iconv_t cd; /**< Iconv conversion descriptor */ } last_cd; static inline void utf8_clear_cd_cache(void) { last_cd.from[0] = '\0'; last_cd.to[0] = '\0'; last_cd.cd = 0; } /* exported interface documented in utils/utf8.h */ nserror utf8_finalise(void) { if (last_cd.cd != 0) iconv_close(last_cd.cd); /* paranoia follows */ utf8_clear_cd_cache(); return NSERROR_OK; } /** * Convert a string from one encoding to another * * \param string The NULL-terminated string to convert * \param len Length of input string to consider (in bytes), or 0 * \param from The encoding name to convert from * \param to The encoding name to convert to * \param result Pointer to location in which to store result. * \param result_len Pointer to location in which to store result length. * \return NSERROR_OK for no error, NSERROR_NOMEM on allocation error, * NSERROR_BAD_ENCODING for a bad character encoding */ static nserror utf8_convert(const char *string, size_t len, const char *from, const char *to, char **result, size_t *result_len) { iconv_t cd; char *temp, *out, *in; size_t slen, rlen; assert(string && from && to && result); if (string[0] == '\0') { /* On AmigaOS, iconv() returns an error if we pass an * empty string. This prevents iconv() being called as * there is no conversion necessary anyway. */ *result = strdup(""); if (!(*result)) { *result = NULL; return NSERROR_NOMEM; } return NSERROR_OK; } if (strcasecmp(from, to) == 0) { /* conversion from an encoding to itself == strdup */ slen = len ? len : strlen(string); *(result) = strndup(string, slen); if (!(*result)) { *(result) = NULL; return NSERROR_NOMEM; } return NSERROR_OK; } in = (char *)string; /* we cache the last used conversion descriptor, * so check if we're trying to use it here */ if (strncasecmp(last_cd.from, from, sizeof(last_cd.from)) == 0 && strncasecmp(last_cd.to, to, sizeof(last_cd.to)) == 0) { cd = last_cd.cd; } else { /* no match, so create a new cd */ cd = iconv_open(to, from); if (cd == (iconv_t)-1) { if (errno == EINVAL) return NSERROR_BAD_ENCODING; /* default to no memory */ return NSERROR_NOMEM; } /* close the last cd - we don't care if this fails */ if (last_cd.cd) iconv_close(last_cd.cd); /* and copy the to/from/cd data into last_cd */ snprintf(last_cd.from, sizeof(last_cd.from), "%s", from); snprintf(last_cd.to, sizeof(last_cd.to), "%s", to); last_cd.cd = cd; } slen = len ? len : strlen(string); /* Worst case = ASCII -> UCS4, so allocate an output buffer * 4 times larger than the input buffer, and add 4 bytes at * the end for the NULL terminator */ rlen = slen * 4 + 4; temp = out = malloc(rlen); if (!out) { return NSERROR_NOMEM; } /* perform conversion */ if (iconv(cd, (void *) &in, &slen, &out, &rlen) == (size_t)-1) { free(temp); /* clear the cached conversion descriptor as it's invalid */ if (last_cd.cd) iconv_close(last_cd.cd); utf8_clear_cd_cache(); /** \todo handle the various cases properly * There are 3 possible error cases: * a) Insufficiently large output buffer * b) Invalid input byte sequence * c) Incomplete input sequence */ return NSERROR_NOMEM; } *(result) = realloc(temp, out - temp + 4); if (!(*result)) { free(temp); *(result) = NULL; /* for sanity's sake */ return NSERROR_NOMEM; } /* NULL terminate - needs 4 characters as we may have * converted to UTF-32 */ memset((*result) + (out - temp), 0, 4); if (result_len != NULL) { *result_len = (out - temp); } return NSERROR_OK; } /* exported interface documented in utils/utf8.h */ nserror utf8_to_enc(const char *string, const char *encname, size_t len, char **result) { return utf8_convert(string, len, "UTF-8", encname, result, NULL); } /* exported interface documented in utils/utf8.h */ nserror utf8_from_enc(const char *string, const char *encname, size_t len, char **result, size_t *result_len) { return utf8_convert(string, len, encname, "UTF-8", result, result_len); } /** * convert a chunk of html data */ static nserror utf8_convert_html_chunk(iconv_t cd, const char *chunk, size_t inlen, char **out, size_t *outlen) { size_t ret, esclen; uint32_t ucs4; char *pescape, escape[11]; while (inlen > 0) { ret = iconv(cd, (void *) &chunk, &inlen, (void *) out, outlen); if (ret != (size_t) -1) break; if (errno != EILSEQ) return NSERROR_NOMEM; ucs4 = utf8_to_ucs4(chunk, inlen); esclen = snprintf(escape, sizeof(escape), "&#x%06x;", ucs4); pescape = escape; ret = iconv(cd, (void *) &pescape, &esclen, (void *) out, outlen); if (ret == (size_t) -1) return NSERROR_NOMEM; esclen = utf8_next(chunk, inlen, 0); chunk += esclen; inlen -= esclen; } return NSERROR_OK; } /* exported interface documented in utils/utf8.h */ nserror utf8_to_html(const char *string, const char *encname, size_t len, char **result) { iconv_t cd; const char *in; char *out, *origout; size_t off, prev_off, inlen, outlen, origoutlen, esclen; nserror ret; char *pescape, escape[11]; if (len == 0) len = strlen(string); /* we cache the last used conversion descriptor, * so check if we're trying to use it here */ if (strncasecmp(last_cd.from, "UTF-8", sizeof(last_cd.from)) == 0 && strncasecmp(last_cd.to, encname, sizeof(last_cd.to)) == 0 && last_cd.cd != 0) { cd = last_cd.cd; } else { /* no match, so create a new cd */ cd = iconv_open(encname, "UTF-8"); if (cd == (iconv_t) -1) { if (errno == EINVAL) return NSERROR_BAD_ENCODING; /* default to no memory */ return NSERROR_NOMEM; } /* close the last cd - we don't care if this fails */ if (last_cd.cd) iconv_close(last_cd.cd); /* and safely copy the to/from/cd data into last_cd */ snprintf(last_cd.from, sizeof(last_cd.from), "UTF-8"); snprintf(last_cd.to, sizeof(last_cd.to), "%s", encname); last_cd.cd = cd; } /* Worst case is ASCII -> UCS4, with all characters escaped: * "&#xYYYYYY;", thus each input character may become a string * of 10 UCS4 characters, each 4 bytes in length, plus four for * terminating the string */ origoutlen = outlen = len * 10 * 4 + 4; origout = out = malloc(outlen); if (out == NULL) { iconv_close(cd); utf8_clear_cd_cache(); return NSERROR_NOMEM; } /* Process input in chunks between characters we must escape */ prev_off = off = 0; while (off < len) { /* Must escape '&', '<', and '>' */ if (string[off] == '&' || string[off] == '<' || string[off] == '>') { if (off - prev_off > 0) { /* Emit chunk */ in = string + prev_off; inlen = off - prev_off; ret = utf8_convert_html_chunk(cd, in, inlen, &out, &outlen); if (ret != NSERROR_OK) { free(origout); iconv_close(cd); utf8_clear_cd_cache(); return ret; } } /* Emit mandatory escape */ esclen = snprintf(escape, sizeof(escape), "&#x%06x;", string[off]); pescape = escape; ret = utf8_convert_html_chunk(cd, pescape, esclen, &out, &outlen); if (ret != NSERROR_OK) { free(origout); iconv_close(cd); utf8_clear_cd_cache(); return ret; } prev_off = off = utf8_next(string, len, off); } else { off = utf8_next(string, len, off); } } /* Process final chunk */ if (prev_off < len) { in = string + prev_off; inlen = len - prev_off; ret = utf8_convert_html_chunk(cd, in, inlen, &out, &outlen); if (ret != NSERROR_OK) { free(origout); iconv_close(cd); utf8_clear_cd_cache(); return ret; } } /* Terminate string */ memset(out, 0, 4); outlen -= 4; /* Shrink-wrap */ *result = realloc(origout, origoutlen - outlen); if (*result == NULL) { free(origout); return NSERROR_NOMEM; } return NSERROR_OK; } /* exported interface documented in utils/utf8.h */ bool utf8_save_text(const char *utf8_text, const char *path) { nserror ret; char *conv; FILE *out; ret = guit->utf8->utf8_to_local(utf8_text, strlen(utf8_text), &conv); if (ret != NSERROR_OK) { LOG("failed to convert to local encoding, return %d", ret); return false; } out = fopen(path, "w"); if (out) { int res = fputs(conv, out); if (res < 0) { LOG("Warning: writing data failed"); } res = fputs("\n", out); fclose(out); free(conv); return (res != EOF); } free(conv); return false; }