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|
#if !defined(lint) && !defined(DOS)
static char rcsid[] = "$Id: charset.c 1032 2008-04-11 00:30:04Z hubert@u.washington.edu $";
#endif
/*
* ========================================================================
* Copyright 2013-2018 Eduardo Chappa
* Copyright 2006-2008 University of Washington
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* ========================================================================
*/
#include "../pith/headers.h"
#include "../pith/charset.h"
#include "../pith/state.h"
#include "../pith/conf.h"
#include "../pith/escapes.h"
#include "../pith/mimedesc.h"
#include "../pith/filter.h"
#include "../pith/string.h"
#include "../pith/options.h"
/*
* Internal prototypes
*/
int rfc1522_token(char *, int (*)(int), char *, char **);
int rfc1522_valtok(int);
int rfc1522_valenc(int);
int rfc1522_valid(char *, char **, char **, char **, char **);
void rfc1522_copy_and_transliterate(unsigned char *, unsigned char **, size_t,
unsigned char *, unsigned long, char *);
unsigned char *rfc1522_encoded_word(unsigned char *, int, char *);
char *rfc1522_8bit(void *, int);
char *rfc1522_binary(void *, int);
char *
body_charset(MAILSTREAM *stream, long int msgno, unsigned char *section)
{
BODY *body;
char *charset;
if((body = mail_body(stream, msgno, section)) && body->type == TYPETEXT){
if(!(charset = parameter_val(body->parameter, "charset")))
charset = cpystr("US-ASCII");
return(charset);
}
return(NULL);
}
/*
* Copies the source string into allocated space with the 8-bit EUC codes
* (on Unix) or the Shift-JIS (on PC) converted into ISO-2022-JP.
* Caller is responsible for freeing the result.
*/
unsigned char *
trans_euc_to_2022_jp(unsigned char *src)
{
size_t len, alloc;
unsigned char *rv, *p, *q;
int inside_esc_seq = 0;
int c1 = -1; /* remembers first of pair for Shift-JIS */
if(!src)
return(NULL);
len = strlen((char *) src);
/*
* Worst possible increase is every other character an 8-bit character.
* In that case, each of those gets 6 extra charactes for the escape
* sequences. We're not too concerned about the extra length because
* these are relatively short strings.
*/
alloc = len + 1 + ((len+1)/2) * 6;
rv = (unsigned char *) fs_get(alloc * sizeof(char));
for(p = src, q = rv; *p; p++){
if(inside_esc_seq){
if(c1 >= 0){ /* second of a pair? */
int adjust = *p < 159;
int rowOffset = c1 < 160 ? 112 : 176;
int cellOffset = adjust ? (*p > 127 ? 32 : 31) : 126;
*q++ = ((c1 - rowOffset) << 1) - adjust;
*q++ = *p - cellOffset;
c1 = -1;
}
else if(*p & 0x80){
*q++ = (*p & 0x7f);
}
else{
*q++ = '\033';
*q++ = '(';
*q++ = 'B';
*q++ = (*p);
c1 = -1;
inside_esc_seq = 0;
}
}
else{
if(*p & 0x80){
*q++ = '\033';
*q++ = '$';
*q++ = 'B';
*q++ = (*p & 0x7f);
inside_esc_seq = 1;
}
else{
*q++ = (*p);
}
}
}
if(inside_esc_seq){
*q++ = '\033';
*q++ = '(';
*q++ = 'B';
}
*q = '\0';
return(rv);
}
/*
* * * * * * * * * RFC 1522 support routines * * * * * * * *
*
* RFC 1522 support is *very* loosely based on code contributed
* by Lars-Erik Johansson <lej@cdg.chalmers.se>. Thanks to Lars-Erik,
* and appologies for taking such liberties with his code.
*/
#define RFC1522_INIT "=?"
#define RFC1522_INIT_L 2
#define RFC1522_TERM "?="
#define RFC1522_TERM_L 2
#define RFC1522_DLIM "?"
#define RFC1522_DLIM_L 1
#define RFC1522_MAXW 75 /* RFC's say 75, but no senders seem to care*/
#define ESPECIALS "()<>@,;:\"/[]?.="
#define RFC1522_OVERHEAD(S) (RFC1522_INIT_L + RFC1522_TERM_L + \
(2 * RFC1522_DLIM_L) + strlen(S) + 1);
#define RFC1522_ENC_CHAR(C) (((C) & 0x80) || !rfc1522_valtok(C) \
|| (C) == '_' )
/*
* rfc1522_decode_to_utf8 - try to decode the given source string ala RFC 2047
* (obsoleted RFC 1522) into the given destination buffer,
* encoded in UTF-8.
*
* How large should d be? The decoded string of octets will fit in
* the same size string as the source string. However, because we're
* translating that into UTF-8 the result may expand. Currently the
* Thai character set has single octet characters which expand to
* three octets in UTF-8. So it would be safe to use 3 * strlen(s)
* for the size of d. One can imagine a currently non-existent
* character set that expanded to 4 octets instead, so use 4 to be
* super safe.
*
* Returns: pointer to either the destination buffer containing the
* decoded text, or a pointer to the source buffer if there was
* no valid 'encoded-word' found during scanning.
*/
unsigned char *
rfc1522_decode_to_utf8(unsigned char *d, size_t len, char *s)
{
unsigned char *rv = NULL, *p;
char *start = s, *sw, *enc, *txt, *ew, **q, *lang;
char *cset;
unsigned long l;
int i;
*d = '\0'; /* init destination */
while(s && (sw = strstr(s, RFC1522_INIT))){
if(!rv) /* there's something to do, init it */
rv = d;
/* validate the rest of the encoded-word */
if(rfc1522_valid(sw, &cset, &enc, &txt, &ew)){
/*
* We may have been putting off copying the first part of the
* source while waiting to see if we have to copy at all.
*/
if(rv == d && s != start){
rfc1522_copy_and_transliterate(rv, &d, len, (unsigned char *) start,
sw - start, NULL);
s = sw;
}
/* copy everything between s and sw to destination */
for(i = 0; &s[i] < sw; i++)
if(!isspace((unsigned char)s[i])){ /* if some non-whitespace */
while(s < sw && d-rv<len-1)
*d++ = (unsigned char) *s++;
break;
}
enc[-1] = txt[-1] = ew[0] = '\0'; /* tie off token strings */
if((lang = strchr(cset, '*')) != NULL)
*lang++ = '\0';
/* based on encoding, write the encoded text to output buffer */
switch(*enc){
case 'Q' : /* 'Q' encoding */
case 'q' :
/* special hocus-pocus to deal with '_' exception, too bad */
for(l = 0L, i = 0; txt[l]; l++)
if(txt[l] == '_')
i++;
if(i){
q = (char **) fs_get((i + 1) * sizeof(char *));
for(l = 0L, i = 0; txt[l]; l++)
if(txt[l] == '_'){
q[i++] = &txt[l];
txt[l] = SPACE;
}
q[i] = NULL;
}
else
q = NULL;
if((p = rfc822_qprint((unsigned char *)txt, strlen(txt), &l)) != NULL){
rfc1522_copy_and_transliterate(rv, &d, len, p, l, cset);
fs_give((void **)&p); /* free encoded buf */
}
else{
if(q)
fs_give((void **) &q);
goto bogus;
}
if(q){ /* restore underscores */
for(i = 0; q[i]; i++)
*(q[i]) = '_';
fs_give((void **)&q);
}
break;
case 'B' : /* 'B' encoding */
case 'b' :
if((p = rfc822_base64((unsigned char *) txt, strlen(txt), &l)) != NULL){
rfc1522_copy_and_transliterate(rv, &d, len, p, l, cset);
fs_give((void **)&p); /* free encoded buf */
}
else
goto bogus;
break;
default:
rfc1522_copy_and_transliterate(rv, &d, len, (unsigned char *) txt,
strlen(txt), NULL);
dprint((1, "RFC1522_decode: Unknown ENCODING: %s\n",
enc ? enc : "?"));
break;
}
/* restore trompled source string */
enc[-1] = txt[-1] = '?';
ew[0] = RFC1522_TERM[0];
/* advance s to start of text after encoded-word */
s = ew + RFC1522_TERM_L;
if(lang)
lang[-1] = '*';
}
else{
/*
* Found intro, but bogus data followed, treat it as normal text.
*/
l = (sw - s) + RFC1522_INIT_L;
rfc1522_copy_and_transliterate(rv, &d, len, (unsigned char *) s, l, NULL);
for(; isspace((unsigned char) *(s+l)) && d-rv<len-1;l++)
*d++ = *(s+l); /* copy any trailing space */
rv[len-1] = '\0';
*d = '\0';
s += l;
}
}
if(rv){
if(s && *s){ /* copy remaining text */
rfc1522_copy_and_transliterate(rv, &d, len, (unsigned char *) s, strlen(s), NULL);
rv[len-1] = '\0';
}
}
else if(s){
rv = d;
rfc1522_copy_and_transliterate(rv, &d, len, (unsigned char *) s, strlen(s), NULL);
rv[len-1] = '\0';
}
return(rv ? rv : (unsigned char *) start);
bogus:
dprint((1, "RFC1522_decode: BOGUS INPUT: -->%s<--\n",
start ? start : "?"));
return((unsigned char *) start);
}
/*
* rfc1522_token - scan the given source line up to the end_str making
* sure all subsequent chars are "valid" leaving endp
* a the start of the end_str.
* Returns: TRUE if we got a valid token, FALSE otherwise
*/
int
rfc1522_token(char *s, int (*valid) (int), char *end_str, char **endp)
{
while(*s){
if((char) *s == *end_str /* test for matching end_str */
&& ((end_str[1])
? !strncmp((char *)s + 1, end_str + 1, strlen(end_str + 1))
: 1)){
*endp = s;
return(TRUE);
}
if(!(*valid)(*s++)) /* test for valid char */
break;
}
return(FALSE);
}
/*
* rfc1522_valtok - test for valid character in the RFC 1522 encoded
* word's charset and encoding fields.
*/
int
rfc1522_valtok(int c)
{
return(!(c == SPACE || iscntrl(c & 0x7f) || strindex(ESPECIALS, c)));
}
/*
* rfc1522_valenc - test for valid character in the RFC 1522 encoded
* word's encoded-text field.
*/
int
rfc1522_valenc(int c)
{
return(!(c == '?' || c == SPACE) && isprint((unsigned char)c));
}
/*
* rfc1522_valid - validate the given string as to it's rfc1522-ness
*/
int
rfc1522_valid(char *s, char **charset, char **enc, char **txt, char **endp)
{
char *c, *e, *t, *p;
int rv;
rv = rfc1522_token(c = s+RFC1522_INIT_L, rfc1522_valtok, RFC1522_DLIM, &e)
&& rfc1522_token(++e, rfc1522_valtok, RFC1522_DLIM, &t)
&& rfc1522_token(++t, rfc1522_valenc, RFC1522_TERM, &p);
if(charset)
*charset = c;
if(enc)
*enc = e;
if(txt)
*txt = t;
if(endp)
*endp = p;
return(rv);
}
/*
* rfc1522_copy_and_transliterate - copy given buf to destination buffer
* as UTF-8 characters
*/
void
rfc1522_copy_and_transliterate(unsigned char *rv,
unsigned char **d,
size_t len,
unsigned char *s,
unsigned long l,
char *cset)
{
unsigned long i;
SIZEDTEXT src, xsrc;
src.data = s;
src.size = l;
memset(&xsrc, 0, sizeof(SIZEDTEXT));
/* transliterate decoded segment to utf-8 */
if(cset){
if(strucmp((char *) cset, "us-ascii")
&& strucmp((char *) cset, "utf-8")){
if(utf8_charset(cset)){
if(!utf8_text(&src, cset, &xsrc, 0L)){
/* should not happen */
alpine_panic("c-client failed to transliterate recognized characterset");
}
}
else{
/* non-xlatable charset */
for(i = 0; i < l; i++)
if(src.data[i] & 0x80){
xsrc.data = (unsigned char *) fs_get((l+1) * sizeof(unsigned char));
xsrc.size = l;
for(i = 0; i < l; i++)
xsrc.data[i] = (src.data[i] & 0x80) ? '?' : src.data[i];
break;
}
}
}
}
else{
const CHARSET *cs;
src.data = s;
src.size = strlen((char *) s);
if((cs = utf8_infercharset(&src))){
if(!(cs->type == CT_ASCII || cs->type == CT_UTF8)){
if(!utf8_text_cs(&src, cs, &xsrc, 0L, 0L)){
/* should not happen */
alpine_panic("c-client failed to transliterate recognized characterset");
}
}
}
else if((cset=ps_global->VAR_UNK_CHAR_SET)
&& strucmp((char *) cset, "us-ascii")
&& strucmp((char *) cset, "utf-8")
&& utf8_charset(cset)){
if(!utf8_text(&src, cset, &xsrc, 0L)){
/* should not happen */
alpine_panic("c-client failed to transliterate recognized character set");
}
}
else{
/* unknown bytes - mask off high bit chars */
for(i = 0; i < l; i++)
if(src.data[i] & 0x80){
xsrc.data = (unsigned char *) fs_get((l+1) * sizeof(unsigned char));
xsrc.size = l;
for(i = 0; i < l; i++)
xsrc.data[i] = (src.data[i] & 0x80) ? '?' : src.data[i];
break;
}
}
}
if(xsrc.data){
s = xsrc.data;
l = xsrc.size;
}
i = MIN(l,len-1-((*d)-rv));
strncpy((char *) (*d), (char *) s, i);
(*d)[i] = '\0';
*d += l; /* advance dest ptr to EOL */
if((*d)-rv > len-1)
*d = rv+len-1;
if(xsrc.data && src.data != xsrc.data)
fs_give((void **) &xsrc.data);
}
/*
* rfc1522_encode - encode the given source string ala RFC 1522,
* IF NECESSARY, into the given destination buffer.
* Don't bother copying if it turns out encoding
* isn't necessary.
*
* Returns: pointer to either the destination buffer containing the
* encoded text, or a pointer to the source buffer if we didn't
* have to encode anything.
*/
char *
rfc1522_encode(char *d, size_t dlen, unsigned char *s, char *charset)
{
unsigned char *p, *q;
int n;
if(!s)
return((char *) s);
if(!charset)
charset = UNKNOWN_CHARSET;
/* look for a reason to encode */
for(p = s, n = 0; *p; p++)
if((*p) & 0x80){
n++;
}
else if(*p == RFC1522_INIT[0]
&& !strncmp((char *) p, RFC1522_INIT, RFC1522_INIT_L)){
if(rfc1522_valid((char *) p, NULL, NULL, NULL, (char **) &q))
p = q + RFC1522_TERM_L - 1; /* advance past encoded gunk */
}
else if(*p == ESCAPE && match_escapes((char *)(p+1))){
n++;
}
if(n){ /* found, encoding to do */
char *rv = d, *t,
enc = (n > (2 * (p - s)) / 3) ? 'B' : 'Q';
while(*s){
if(d-rv < dlen-1-(RFC1522_INIT_L+2*RFC1522_DLIM_L+1)){
sstrncpy(&d, RFC1522_INIT, dlen-(d-rv)); /* insert intro header, */
sstrncpy(&d, charset, dlen-(d-rv)); /* character set tag, */
sstrncpy(&d, RFC1522_DLIM, dlen-(d-rv)); /* and encoding flavor */
if(dlen-(d-rv) > 0)
*d++ = enc;
sstrncpy(&d, RFC1522_DLIM, dlen-(d-rv));
}
/*
* feed lines to encoder such that they're guaranteed
* less than RFC1522_MAXW.
*/
p = rfc1522_encoded_word(s, enc, charset);
if(enc == 'B') /* insert encoded data */
sstrncpy(&d, t = rfc1522_binary(s, p - s), dlen-1-(d-rv));
else /* 'Q' encoding */
sstrncpy(&d, t = rfc1522_8bit(s, p - s), dlen-1-(d-rv));
sstrncpy(&d, RFC1522_TERM, dlen-1-(d-rv)); /* insert terminator */
fs_give((void **) &t);
if(*p) /* more src string follows */
sstrncpy(&d, "\015\012 ", dlen-1-(d-rv)); /* insert cont. line */
s = p; /* advance s */
}
rv[dlen-1] = '\0';
return(rv);
}
else
return((char *) s); /* no work for us here */
}
/*
* rfc1522_encoded_word -- cut given string into max length encoded word
*
* Return: pointer into 's' such that the encoded 's' is no greater
* than RFC1522_MAXW
*
* NOTE: this line break code is NOT cognizant of any SI/SO
* charset requirements nor similar strategies using escape
* codes. Hopefully this will matter little and such
* representation strategies don't also include 8bit chars.
*/
unsigned char *
rfc1522_encoded_word(unsigned char *s, int enc, char *charset)
{
int goal = RFC1522_MAXW - RFC1522_OVERHEAD(charset);
if(enc == 'B') /* base64 encode */
for(goal = ((goal / 4) * 3) - 2; goal && *s; goal--, s++)
;
else /* special 'Q' encoding */
for(; goal && *s; s++)
if((goal -= RFC1522_ENC_CHAR(*s) ? 3 : 1) < 0)
break;
return(s);
}
/*
* rfc1522_8bit -- apply RFC 1522 'Q' encoding to the given 8bit buffer
*
* Return: alloc'd buffer containing encoded string
*/
char *
rfc1522_8bit(void *src, int slen)
{
char *ret = (char *) fs_get ((size_t) (3*slen + 2));
char *d = ret;
unsigned char c;
unsigned char *s = (unsigned char *) src;
while (slen--) { /* for each character */
if (((c = *s++) == '\015') && (*s == '\012') && slen) {
*d++ = '\015'; /* true line break */
*d++ = *s++;
slen--;
}
else if(c == SPACE){ /* special encoding case */
*d++ = '_';
}
else if(RFC1522_ENC_CHAR(c)){
*d++ = '='; /* quote character */
C2XPAIR(c, d);
}
else
*d++ = (char) c; /* ordinary character */
}
*d = '\0'; /* tie off destination */
return(ret);
}
/*
* rfc1522_binary -- apply RFC 1522 'B' encoding to the given 8bit buffer
*
* Return: alloc'd buffer containing encoded string
*/
char *
rfc1522_binary (void *src, int srcl)
{
static char *v =
"ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz0123456789+/";
unsigned char *s = (unsigned char *) src;
char *ret, *d;
d = ret = (char *) fs_get ((size_t) ((((srcl + 2) / 3) * 4) + 1));
for (; srcl; s += 3) { /* process tuplets */
/* byte 1: high 6 bits (1) */
*d++ = v[s[0] >> 2];
/* byte 2: low 2 bits (1), high 4 bits (2) */
*d++ = v[((s[0] << 4) + (--srcl ? (s[1] >> 4) : 0)) & 0x3f];
/* byte 3: low 4 bits (2), high 2 bits (3) */
*d++ = srcl ? v[((s[1] << 2) + (--srcl ? (s[2] >> 6) :0)) & 0x3f] :'=';
/* byte 4: low 6 bits (3) */
*d++ = srcl ? v[s[2] & 0x3f] : '=';
if(srcl)
srcl--; /* count third character if processed */
}
*d = '\0'; /* tie off string */
return(ret); /* return the resulting string */
}
/*
* Checks if charset conversion is possible and which quality could be achieved
*
* args: from_cs -- charset to convert from
* to_cs -- charset to convert to
*
* Results:
* CONV_TABLE->table -- conversion table, NULL if conversion not needed
* or not supported
* CONV_TABLE->quality -- conversion quality (conversion not supported, not
* needed, loses special chars, or loses letters
*
* The other entries of CONV_TABLE are used inside this function only
* and may not be used outside unless this documentation is updated.
*/
CONV_TABLE *
conversion_table(char *from_cs, char *to_cs)
{
int i, j;
unsigned char *p = NULL;
unsigned short *fromtab, *totab;
CONV_TABLE *ct = NULL;
const CHARSET *from, *to;
static CONV_TABLE null_tab;
if(!(from_cs && *from_cs && to_cs && *to_cs) || !strucmp(from_cs, to_cs)){
memset(&null_tab, 0, sizeof(null_tab));
null_tab.quality = CV_NO_TRANSLATE_NEEDED;
return(&null_tab);
}
/*
* First check to see if we are already set up for this pair of charsets.
*/
if((ct = ps_global->conv_table) != NULL
&& ct->from_charset && ct->to_charset
&& !strucmp(ct->from_charset, from_cs)
&& !strucmp(ct->to_charset, to_cs))
return(ct);
/*
* No such luck. Get rid of the cache of the previous translation table
* and build a new one.
*/
if(ct){
if(ct->table && (ct->convert != gf_convert_utf8_charset))
fs_give((void **) &ct->table);
if(ct->from_charset)
fs_give((void **) &ct->from_charset);
if(ct->to_charset)
fs_give((void **) &ct->to_charset);
}
else
ct = ps_global->conv_table = (CONV_TABLE *) fs_get(sizeof(*ct));
memset(ct, 0, sizeof(*ct));
ct->from_charset = cpystr(from_cs);
ct->to_charset = cpystr(to_cs);
ct->quality = CV_NO_TRANSLATE_POSSIBLE;
/*
* Check to see if a translation is feasible.
*/
from = utf8_charset(from_cs);
to = utf8_charset(to_cs);
if(from && to){ /* if both charsets found */
/* no mapping if same or from is ASCII */
if((from->type == to->type && from->tab == to->tab)
|| (from->type == CT_ASCII))
ct->quality = CV_NO_TRANSLATE_NEEDED;
else switch(from->type){
case CT_1BYTE0: /* 1 byte no table */
case CT_1BYTE: /* 1 byte ASCII + table 0x80-0xff */
case CT_1BYTE8: /* 1 byte table 0x00 - 0xff */
switch(to->type){
case CT_1BYTE0: /* 1 byte no table */
case CT_1BYTE: /* 1 byte ASCII + table 0x80-0xff */
case CT_1BYTE8: /* 1 byte table 0x00 - 0xff */
ct->quality = (from->script & to->script) ?
CV_LOSES_SOME_LETTERS : CV_LOSES_SPECIAL_CHARS;
break;
}
break;
case CT_UTF8: /* variable UTF-8 encoded Unicode no table */
/* If source is UTF-8, see if destination charset has an 8 or 16 bit
* coded character set that we can translate to. By special
* dispensation, kludge ISO-2022-JP to EUC or Shift-JIS, but don't
* try to do any other ISO 2022 charsets or UTF-7.
*/
switch (to->type){
case CT_SJIS: /* 2 byte Shift-JIS */
/* only win if can get EUC-JP chartab */
if(utf8_charset("EUC-JP"))
ct->quality = CV_LOSES_SOME_LETTERS;
break;
case CT_ASCII: /* 7-bit ASCII no table */
case CT_1BYTE0: /* 1 byte no table */
case CT_1BYTE: /* 1 byte ASCII + table 0x80-0xff */
case CT_1BYTE8: /* 1 byte table 0x00 - 0xff */
case CT_EUC: /* 2 byte ASCII + utf8_eucparam base/CS2/CS3 */
case CT_DBYTE: /* 2 byte ASCII + utf8_eucparam */
case CT_DBYTE2: /* 2 byte ASCII + utf8_eucparam plane1/2 */
ct->quality = CV_LOSES_SOME_LETTERS;
break;
}
break;
}
switch (ct->quality) { /* need to map? */
case CV_NO_TRANSLATE_POSSIBLE:
case CV_NO_TRANSLATE_NEEDED:
break; /* no mapping needed */
default: /* do mapping */
switch (from->type) {
case CT_UTF8: /* UTF-8 to legacy character set */
if((ct->table = utf8_rmap (to_cs)) != NULL)
ct->convert = gf_convert_utf8_charset;
break;
case CT_1BYTE0: /* ISO 8859-1 */
case CT_1BYTE: /* low part ASCII, high part other */
case CT_1BYTE8: /* low part has some non-ASCII */
/*
* The fromtab and totab tables are mappings from the 128 character
* positions 128-255 to their Unicode values (so unsigned shorts).
* The table we are creating is such that if
*
* from_char_value -> unicode_value
* to_char_value -> same_unicode_value
*
* then we want to map from_char_value -> to_char_value
*
* To simplify conversions we create the whole 256 element array,
* with the first 128 positions just the identity. If there is no
* conversion for a particular from_char_value (that is, no
* to_char_value maps to the same unicode character) then we put
* '?' in that character. We may want to output blob on the PC,
* but don't so far.
*
* If fromtab or totab are NULL, that means the mapping is simply
* the identity mapping. Since that is still useful to us, we
* create it on the fly.
*/
fromtab = (unsigned short *) from->tab;
totab = (unsigned short *) to->tab;
ct->convert = gf_convert_8bit_charset;
p = ct->table = (unsigned char *)
fs_get(256 * sizeof(unsigned char));
for(i = 0; i < 256; i++){
unsigned int fc;
p[i] = '?';
switch(from->type){ /* get "from" UCS-2 codepoint */
case CT_1BYTE0: /* ISO 8859-1 */
fc = i;
break;
case CT_1BYTE: /* low part ASCII, high part other */
fc = (i < 128) ? i : fromtab[i-128];
break;
case CT_1BYTE8: /* low part has some non-ASCII */
fc = fromtab[i];
break;
}
switch(to->type){ /* match against "to" UCS-2 codepoint */
case CT_1BYTE0: /* identity match for ISO 8859-1*/
if(fc < 256)
p[i] = fc;
break;
case CT_1BYTE: /* ASCII is identity, search high part */
if(fc < 128) p[i] = fc;
else for(j = 0; j < 128; j++){
if(fc == totab[j]){
p[i] = 128 + j;
break;
}
}
break;
case CT_1BYTE8: /* search all codepoints */
for(j = 0; j < 256; j++){
if(fc == totab[j]){
p[i] = j;
break;
}
}
break;
}
}
break;
}
}
}
return(ct);
}
/*
* Replace personal names in list of addresses with
* decoded personal names in UTF-8.
* Assumes we can free and reallocate the name.
*/
void
decode_addr_names_to_utf8(struct mail_address *a)
{
for(; a; a = a->next)
if(a->personal)
convert_possibly_encoded_str_to_utf8(&a->personal);
}
/*
* Strp is a pointer to an allocated string.
* This routine will convert the string to UTF-8, possibly
* freeing and re-allocating it.
* The source string may or may not have RFC1522 encoding
* which will be undone using rfc1522_decode.
* The string will have been converted on return.
*/
void
convert_possibly_encoded_str_to_utf8(char **strp)
{
size_t len, lensrc, lenresult;
char *bufp, *decoded;
if(!strp || !*strp || **strp == '\0')
return;
len = 4 * strlen(*strp) + 1;
bufp = (char *) fs_get(len);
decoded = (char *) rfc1522_decode_to_utf8((unsigned char *) bufp, len, *strp);
if(decoded != (*strp)){ /* unchanged */
if((lensrc=strlen(*strp)) >= (lenresult=strlen(decoded))){
strncpy(*strp, decoded, lensrc);
(*strp)[lensrc] = '\0';
}
else{
fs_give((void **) strp);
if(decoded == bufp){ /* this will be true */
fs_resize((void **) &bufp, lenresult+1);
*strp = bufp;
bufp = NULL;
}
else{ /* this is unreachable */
*strp = cpystr(decoded);
}
}
}
/* else, already UTF-8 */
if(bufp)
fs_give((void **) &bufp);
}
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