/* * This is the MIME parser for Citadel. * * Copyright (c) 1998-2010 by the citadel.org development team. * This code is distributed under the GNU General Public License v3. * */ #include #include #include #include #include #include #include #include #include #include #include #include "xdgmime/xdgmime.h" #include "libcitadel.h" #include "libcitadellocal.h" const unsigned char FromHexTable [256] = { 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, // 0 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, // 10 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, // 20 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, // 30 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0x00, 0x01, // 40 0x02, 0x03, 0x04, 0x05, 0x06, 0x07, 0x08, 0x09, 0xFF, 0xFF, // 50 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0x0A, 0x0B, 0x0C, 0x0D, 0x0E, // 60 0x0F, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, // 70 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, // 80 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0x0A, 0x0B, 0x0C, // 90 0x0D, 0x0E, 0x0F, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, //100 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, //110 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, //120 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, //130 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, //140 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, //150 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, //160 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, //170 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, //180 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, //190 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, //200 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, //210 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, //220 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, //230 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, //240 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF //250 }; long extract_key(char *target, char *source, long sourcelen, char *key, long keylen, char KeyEnd) { char *sptr, *ptr = NULL; int double_quotes = 0; long RealKeyLen = keylen; sptr = source; while (sptr != NULL) { ptr = bmstrcasestr_len(sptr, sourcelen - (sptr - source), key, keylen); if(ptr != NULL) { while (isspace(*(ptr + RealKeyLen))) RealKeyLen ++; if (*(ptr + RealKeyLen) == KeyEnd) { sptr = NULL; RealKeyLen ++; } else { sptr = ptr + RealKeyLen + 1; } } else sptr = ptr; } if (ptr == NULL) { *target = '\0'; return 0; } strcpy(target, (ptr + RealKeyLen)); for (ptr=target; (*ptr != 0); ptr++) { /* A semicolon means we've hit the end of the key, unless we're inside double quotes */ if ( (double_quotes != 1) && (*ptr == ';')) { *ptr = 0; } /* if we find double quotes, we've got a great set of string boundaries */ if (*ptr == '\"') { ++double_quotes; if (double_quotes == 1) { strcpy(ptr, ptr+1); } else { *ptr = 0; } } } *ptr = '\0'; return ptr - target; } /* * For non-multipart messages, we need to generate a quickie partnum of "1" * to return to callback functions. Some callbacks demand it. */ char *fixed_partnum(char *supplied_partnum) { if (supplied_partnum == NULL) return "1"; if (strlen(supplied_partnum)==0) return "1"; return supplied_partnum; } static inline unsigned int _decode_hex(const char *Source) { int ret = '?'; unsigned char LO_NIBBLE; unsigned char HI_NIBBLE; HI_NIBBLE = FromHexTable[(unsigned char) *Source]; LO_NIBBLE = FromHexTable[(unsigned char) *(Source+1)]; if ((LO_NIBBLE == 0xFF) || (LO_NIBBLE == 0xFF)) return ret; ret = HI_NIBBLE; ret = ret << 4; ret = ret | LO_NIBBLE; return ret; } unsigned int decode_hex(char *Source) {return _decode_hex(Source);} /* * Convert "quoted-printable" to binary. Returns number of bytes decoded. * according to RFC2045 section 6.7 */ int CtdlDecodeQuotedPrintable(char *decoded, char *encoded, int sourcelen) { unsigned int ch; int decoded_length = 0; int pos = 0; while (pos < sourcelen) { if (*(encoded + pos) == '=') { pos ++; if (*(encoded + pos) == '\n') { pos ++; } else if (*(encoded + pos) == '\r') { pos ++; if (*(encoded + pos) == '\n') pos++; } else { ch = 0; ch = _decode_hex(&encoded[pos]); pos += 2; decoded[decoded_length++] = ch; } } else { decoded[decoded_length++] = encoded[pos]; pos += 1; } } decoded[decoded_length] = 0; return(decoded_length); } /* * Given a message or message-part body and a length, handle any necessary * decoding and pass the request up the stack. */ void mime_decode(char *partnum, char *part_start, size_t length, char *content_type, char *charset, char *encoding, char *disposition, char *id, char *name, char *filename, MimeParserCallBackType CallBack, MimeParserCallBackType PreMultiPartCallBack, MimeParserCallBackType PostMultiPartCallBack, void *userdata, int dont_decode) { char *decoded; size_t bytes_decoded = 0; /* Some encodings aren't really encodings */ if (!strcasecmp(encoding, "7bit")) strcpy(encoding, ""); if (!strcasecmp(encoding, "8bit")) strcpy(encoding, ""); if (!strcasecmp(encoding, "binary")) strcpy(encoding, ""); /* If this part is not encoded, send as-is */ if ( (strlen(encoding) == 0) || (dont_decode)) { if (CallBack != NULL) { CallBack(name, filename, fixed_partnum(partnum), disposition, part_start, content_type, charset, length, encoding, id, userdata); } return; } /* Fail silently if we hit an unknown encoding. */ if ((strcasecmp(encoding, "base64")) && (strcasecmp(encoding, "quoted-printable"))) { return; } /* * Allocate a buffer for the decoded data. The output buffer is slightly * larger than the input buffer; this assumes that the decoded data * will never be significantly larger than the encoded data. This is a * safe assumption with base64, uuencode, and quoted-printable. */ decoded = malloc(length + 32768); if (decoded == NULL) { return; } if (!strcasecmp(encoding, "base64")) { bytes_decoded = CtdlDecodeBase64(decoded, part_start, length); } else if (!strcasecmp(encoding, "quoted-printable")) { bytes_decoded = CtdlDecodeQuotedPrintable(decoded, part_start, length); } if (bytes_decoded > 0) if (CallBack != NULL) { char encoding_buf[SIZ]; strcpy(encoding_buf, "binary"); CallBack(name, filename, fixed_partnum(partnum), disposition, decoded, content_type, charset, bytes_decoded, encoding_buf, id, userdata); } free(decoded); } /* * this is the extract of mime_decode which can be called if 'dont_decode' was set; * to save the cpu intense process of decoding to the time when it realy wants the content. * returns: * - > 0 we decoded something, its on *decoded, you need to free it. * - = 0 no need to decode stuff. *decoded will be NULL. * - < 0 an error occured, either an unknown encoding, or alloc failed. no need to free. */ int mime_decode_now (char *part_start, size_t length, char *encoding, char **decoded, size_t *bytes_decoded) { *bytes_decoded = 0; *decoded = NULL; /* Some encodings aren't really encodings */ if (!strcasecmp(encoding, "7bit")) strcpy(encoding, ""); if (!strcasecmp(encoding, "8bit")) strcpy(encoding, ""); if (!strcasecmp(encoding, "binary")) strcpy(encoding, ""); /* If this part is not encoded, send as-is */ if (strlen(encoding) == 0) { return 0; } /* Fail if we hit an unknown encoding. */ if ((strcasecmp(encoding, "base64")) && (strcasecmp(encoding, "quoted-printable"))) { return -1; } /* * Allocate a buffer for the decoded data. The output buffer is slightly * larger than the input buffer; this assumes that the decoded data * will never be significantly larger than the encoded data. This is a * safe assumption with base64, uuencode, and quoted-printable. */ *decoded = malloc(length + 32768); if (decoded == NULL) { return -1; } if (!strcasecmp(encoding, "base64")) { *bytes_decoded = CtdlDecodeBase64(*decoded, part_start, length); return 1; } else if (!strcasecmp(encoding, "quoted-printable")) { *bytes_decoded = CtdlDecodeQuotedPrintable(*decoded, part_start, length); return 1; } return -1; } typedef enum _eIntMimeHdrs { boundary, startary, endary, content_type, charset, encoding, content_type_name, content_disposition_name, filename, disposition, id, eMax /* don't move ! */ } eIntMimeHdrs; typedef struct _CBufStr { char Key[SIZ]; long len; }CBufStr; typedef struct _interesting_mime_headers { CBufStr b[eMax]; long content_length; long is_multipart; } interesting_mime_headers; static void FlushInterestingMimes(interesting_mime_headers *m) { int i; for (i = 0; i < eMax; i++) { m->b[i].Key[0] = '\0'; m->b[i].len = 0; } m->content_length = -1; } static interesting_mime_headers *InitInterestingMimes(void) { interesting_mime_headers *m; m = (interesting_mime_headers*) malloc( sizeof(interesting_mime_headers)); FlushInterestingMimes(m); return m; } static long parse_MimeHeaders(interesting_mime_headers *m, char** pcontent_start, char *content_end) { char buf[SIZ]; char header[SIZ]; long headerlen; char *ptr, *pch; int buflen = 0; int i; /* Learn interesting things from the headers */ ptr = *pcontent_start; *header = '\0'; headerlen = 0; do { ptr = memreadlinelen(ptr, buf, SIZ, &buflen); for (i = 0; i < buflen; ++i) { if (isspace(buf[i])) { buf[i] = ' '; } } if (!isspace(buf[0]) && (headerlen > 0)) { if (!strncasecmp(header, "Content-type:", 13)) { memcpy (m->b[content_type].Key, &header[13], headerlen - 12); m->b[content_type].len = striplt (m->b[content_type].Key); m->b[content_type_name].len = extract_key(m->b[content_type_name].Key, CKEY(m->b[content_type]), HKEY("name"), '='); m->b[charset].len = extract_key(m->b[charset].Key, CKEY(m->b[content_type]), HKEY("charset"), '='); m->b[boundary].len = extract_key(m->b[boundary].Key, header, headerlen, HKEY("boundary"), '='); /* Deal with weird headers */ pch = strchr(m->b[content_type].Key, ' '); if (pch != NULL) { *pch = '\0'; m->b[content_type].len = m->b[content_type].Key - pch; } pch = strchr(m->b[content_type].Key, ';'); if (pch != NULL) { *pch = '\0'; m->b[content_type].len = m->b[content_type].Key - pch; } } else if (!strncasecmp(header, "Content-Disposition:", 20)) { memcpy (m->b[disposition].Key, &header[20], headerlen - 19); m->b[disposition].len = striplt(m->b[disposition].Key); m->b[content_disposition_name].len = extract_key(m->b[content_disposition_name].Key, CKEY(m->b[disposition]), HKEY("name"), '='); m->b[filename].len = extract_key(m->b[filename].Key, CKEY(m->b[disposition]), HKEY("filename"), '='); pch = strchr(m->b[disposition].Key, ';'); if (pch != NULL) *pch = '\0'; m->b[disposition].len = striplt(m->b[disposition].Key); } else if (!strncasecmp(header, "Content-ID:", 11)) { memcpy(m->b[id].Key, &header[11], headerlen); striplt(m->b[id].Key); m->b[id].len = stripallbut(m->b[id].Key, '<', '>'); } else if (!strncasecmp(header, "Content-length: ", 15)) { char *clbuf; clbuf = &header[15]; while (isspace(*clbuf)) clbuf ++; m->content_length = (size_t) atol(clbuf); } else if (!strncasecmp(header, "Content-transfer-encoding: ", 26)) { memcpy(m->b[encoding].Key, &header[26], headerlen - 26); m->b[encoding].len = striplt(m->b[encoding].Key); } *header = '\0'; headerlen = 0; } if ((headerlen + buflen + 2) < SIZ) { memcpy(&header[headerlen], buf, buflen); headerlen += buflen; header[headerlen] = '\0'; } if (ptr >= content_end) { return -1; } } while ((!IsEmptyStr(buf)) && (*ptr != 0)); m->is_multipart = m->b[boundary].len != 0; *pcontent_start = ptr; return 0; } static int IsAsciiEncoding(interesting_mime_headers *m) { if ((m->b[encoding].len != 0) && (strcasecmp(m->b[encoding].Key, "base64") == 0)) return 1; if ((m->b[encoding].len != 0) && (strcmp(m->b[encoding].Key, "quoted-printable") == 0)) return 1; return 0; } static char *FindNextContent(char *ptr, char *content_end, interesting_mime_headers *SubMimeHeaders, interesting_mime_headers *m) { char *next_boundary; char tmp; if (IsAsciiEncoding(SubMimeHeaders)) { tmp = *content_end; *content_end = '\0'; /** * ok, if we have a content length of the mime part, * try skipping the content on the search for the next * boundary. since we don't trust the content_length * to be all accurate, and suspect it to lose one digit * per line with a line length of 80 chars, we need * to start searching a little before.. */ if ((SubMimeHeaders->content_length != -1) && (SubMimeHeaders->content_length > 10)) { char *pptr; long lines; lines = SubMimeHeaders->content_length / 80; pptr = ptr + SubMimeHeaders->content_length - lines - 10; if (pptr < content_end) ptr = pptr; } next_boundary = strstr(ptr, m->b[startary].Key); *content_end = tmp; } else { char *srch; /** * ok, if we have a content length of the mime part, * try skipping the content on the search for the next * boundary. since we don't trust the content_length * to be all accurate, start searching a little before.. */ if ((SubMimeHeaders->content_length != -1) && (SubMimeHeaders->content_length > 10)) { char *pptr; pptr = ptr + SubMimeHeaders->content_length - 10; if (pptr < content_end) ptr = pptr; } srch = next_boundary = NULL; for (srch = memchr(ptr, '-', content_end - srch); (srch != NULL) && (srch < content_end); srch = memchr(srch, '-', content_end - srch)) { if (!memcmp(srch, m->b[startary].Key, m->b[startary].len)) { next_boundary = srch; srch = content_end; } else srch ++; } } return next_boundary; } /* * Break out the components of a multipart message * (This function expects to be fed HEADERS + CONTENT) * Note: NULL can be supplied as content_end; in this case, the message is * considered to have ended when the parser encounters a 0x00 byte. */ static void recurseable_mime_parser(char *partnum, char *content_start, char *content_end, MimeParserCallBackType CallBack, MimeParserCallBackType PreMultiPartCallBack, MimeParserCallBackType PostMultiPartCallBack, void *userdata, int dont_decode, interesting_mime_headers *m) { interesting_mime_headers *SubMimeHeaders; char *ptr; char *part_start; char *part_end = NULL; char *evaluate_crlf_ptr = NULL; char *next_boundary; char nested_partnum[256]; int crlf_in_use = 0; int part_seq = 0; CBufStr *chosen_name; /* If this is a multipart message, then recursively process it */ ptr = content_start; part_start = NULL; if (m->is_multipart) { /* Tell the client about this message's multipartedness */ if (PreMultiPartCallBack != NULL) { PreMultiPartCallBack("", "", partnum, "", NULL, m->b[content_type].Key, m->b[charset].Key, 0, m->b[encoding].Key, m->b[id].Key, userdata); } /* Figure out where the boundaries are */ m->b[startary].len = snprintf(m->b[startary].Key, SIZ, "--%s", m->b[boundary].Key); SubMimeHeaders = InitInterestingMimes (); if (*ptr == '\r') ptr ++; if (*ptr == '\n') ptr ++; if (strncmp(ptr, m->b[startary].Key, m->b[startary].len) == 0) ptr += m->b[startary].len; if (*ptr == '\r') ptr ++; if (*ptr == '\n') ptr ++; part_start = NULL; do { char *optr; optr = ptr; if (parse_MimeHeaders(SubMimeHeaders, &ptr, content_end) != 0) break; if ((ptr - optr > 2) && (*(ptr - 2) == '\r')) crlf_in_use = 1; part_start = ptr; next_boundary = FindNextContent(ptr, content_end, SubMimeHeaders, m); if ((next_boundary != NULL) && (next_boundary - part_start < 3)) { FlushInterestingMimes(SubMimeHeaders); continue; } if ( (part_start != NULL) && (next_boundary != NULL) ) { part_end = next_boundary; --part_end; /* omit the trailing LF */ if (crlf_in_use) { --part_end; /* omit the trailing CR */ } if (!IsEmptyStr(partnum)) { snprintf(nested_partnum, sizeof nested_partnum, "%s.%d", partnum, ++part_seq); } else { snprintf(nested_partnum, sizeof nested_partnum, "%d", ++part_seq); } recurseable_mime_parser(nested_partnum, part_start, part_end, CallBack, PreMultiPartCallBack, PostMultiPartCallBack, userdata, dont_decode, SubMimeHeaders); } if (next_boundary != NULL) { /* If we pass out of scope, don't attempt to * read past the end boundary. */ if ((*(next_boundary + m->b[startary].len + 1) == '-') && (*(next_boundary + m->b[startary].len + 2) == '-') ){ ptr = content_end; } else { /* Set up for the next part. */ part_start = strstr(next_boundary, "\n"); /* Determine whether newlines are LF or CRLF */ evaluate_crlf_ptr = part_start; --evaluate_crlf_ptr; if ((*evaluate_crlf_ptr == '\r') && (*(evaluate_crlf_ptr + 1) == '\n')) { crlf_in_use = 1; } else { crlf_in_use = 0; } /* Advance past the LF ... now we're in the next part */ ++part_start; ptr = part_start; } } else { /* Invalid end of multipart. Bail out! */ ptr = content_end; } FlushInterestingMimes(SubMimeHeaders); } while ( (ptr < content_end) && (next_boundary != NULL) ); free(SubMimeHeaders); if (PostMultiPartCallBack != NULL) { PostMultiPartCallBack("", "", partnum, "", NULL, m->b[content_type].Key, m->b[charset].Key, 0, m->b[encoding].Key, m->b[id].Key, userdata); } } /* If it's not a multipart message, then do something with it */ else { size_t length; part_start = ptr; length = content_end - part_start; ptr = part_end = content_end; /* The following code will truncate the MIME part to the size * specified by the Content-length: header. We have commented it * out because these headers have a tendency to be wrong. * * if ( (content_length > 0) && (length > content_length) ) { * length = content_length; * } */ /* Sometimes the "name" field is tacked on to Content-type, * and sometimes it's tacked on to Content-disposition. Use * whichever one we have. */ if (m->b[content_disposition_name].len > m->b[content_type_name].len) { chosen_name = &m->b[content_disposition_name]; } else { chosen_name = &m->b[content_type_name]; } /* Ok, we've got a non-multipart part here, so do something with it. */ mime_decode(partnum, part_start, length, m->b[content_type].Key, m->b[charset].Key, m->b[encoding].Key, m->b[disposition].Key, m->b[id].Key, chosen_name->Key, m->b[filename].Key, CallBack, NULL, NULL, userdata, dont_decode ); /* * Now if it's an encapsulated message/rfc822 then we have to recurse into it */ if (!strcasecmp(&m->b[content_type].Key[0], "message/rfc822")) { if (PreMultiPartCallBack != NULL) { PreMultiPartCallBack("", "", partnum, "", NULL, m->b[content_type].Key, m->b[charset].Key, 0, m->b[encoding].Key, m->b[id].Key, userdata); } if (CallBack != NULL) { if (strlen(partnum) > 0) { snprintf(nested_partnum, sizeof nested_partnum, "%s.%d", partnum, ++part_seq); } else { snprintf(nested_partnum, sizeof nested_partnum, "%d", ++part_seq); } the_mime_parser(nested_partnum, part_start, part_end, CallBack, PreMultiPartCallBack, PostMultiPartCallBack, userdata, dont_decode ); } if (PostMultiPartCallBack != NULL) { PostMultiPartCallBack("", "", partnum, "", NULL, m->b[content_type].Key, m->b[charset].Key, 0, m->b[encoding].Key, m->b[id].Key, userdata); } } } } /* * Break out the components of a multipart message * (This function expects to be fed HEADERS + CONTENT) * Note: NULL can be supplied as content_end; in this case, the message is * considered to have ended when the parser encounters a 0x00 byte. */ void the_mime_parser(char *partnum, char *content_start, char *content_end, MimeParserCallBackType CallBack, MimeParserCallBackType PreMultiPartCallBack, MimeParserCallBackType PostMultiPartCallBack, void *userdata, int dont_decode) { interesting_mime_headers *m; /* If the caller didn't supply an endpointer, generate one by measure */ if (content_end == NULL) { content_end = &content_start[strlen(content_start)]; } m = InitInterestingMimes(); if (!parse_MimeHeaders(m, &content_start, content_end)) { recurseable_mime_parser(partnum, content_start, content_end, CallBack, PreMultiPartCallBack, PostMultiPartCallBack, userdata, dont_decode, m); } free(m); } /* * Entry point for the MIME parser. * (This function expects to be fed HEADERS + CONTENT) * Note: NULL can be supplied as content_end; in this case, the message is * considered to have ended when the parser encounters a 0x00 byte. */ void mime_parser(char *content_start, char *content_end, MimeParserCallBackType CallBack, MimeParserCallBackType PreMultiPartCallBack, MimeParserCallBackType PostMultiPartCallBack, void *userdata, int dont_decode) { the_mime_parser("", content_start, content_end, CallBack, PreMultiPartCallBack, PostMultiPartCallBack, userdata, dont_decode); } typedef struct _MimeGuess { const char *Pattern; size_t PatternLen; long PatternOffset; const char *MimeString; } MimeGuess; MimeGuess MyMimes [] = { { "GIF", 3, 0, "image/gif" }, { "\xff\xd8", 2, 0, "image/jpeg" }, { "\x89PNG", 4, 0, "image/png" }, { // last... "", 0, 0, "" } }; const char *GuessMimeType(const char *data, size_t dlen) { int MimeIndex = 0; while (MyMimes[MimeIndex].PatternLen != 0) { if ((MyMimes[MimeIndex].PatternLen + MyMimes[MimeIndex].PatternOffset < dlen) && strncmp(MyMimes[MimeIndex].Pattern, &data[MyMimes[MimeIndex].PatternOffset], MyMimes[MimeIndex].PatternLen) == 0) { return MyMimes[MimeIndex].MimeString; } MimeIndex ++; } /* * ok, our simple minded algorythm didn't find anything, * let the big chegger try it, he wil default to application/octet-stream */ return (xdg_mime_get_mime_type_for_data(data, dlen)); } const char* GuessMimeByFilename(const char *what, size_t len) { /* we know some hardcoded on our own, try them... */ if ((len > 3) && !strncasecmp(&what[len - 4], ".gif", 4)) return "image/gif"; else if ((len > 2) && !strncasecmp(&what[len - 3], ".js", 3)) return "text/javascript"; else if ((len > 3) && !strncasecmp(&what[len - 4], ".txt", 4)) return "text/plain"; else if ((len > 3) && !strncasecmp(&what[len - 4], ".css", 4)) return "text/css"; else if ((len > 3) && !strncasecmp(&what[len - 4], ".htc", 4)) return "text/x-component"; else if ((len > 3) && !strncasecmp(&what[len - 4], ".jpg", 4)) return "image/jpeg"; else if ((len > 3) && !strncasecmp(&what[len - 4], ".png", 4)) return "image/png"; else if ((len > 3) && !strncasecmp(&what[len - 4], ".ico", 4)) return "image/x-icon"; else if ((len > 3) && !strncasecmp(&what[len - 4], ".vcf", 4)) return "text/x-vcard"; else if ((len > 4) && !strncasecmp(&what[len - 5], ".html", 5)) return "text/html"; else if ((len > 3) && !strncasecmp(&what[len - 4], ".htm", 4)) return "text/html"; else if ((len > 3) && !strncasecmp(&what[len - 4], ".wml", 4)) return "text/vnd.wap.wml"; else if ((len > 4) && !strncasecmp(&what[len - 5], ".wmls", 5)) return "text/vnd.wap.wmlscript"; else if ((len > 4) && !strncasecmp(&what[len - 5], ".wmlc", 5)) return "application/vnd.wap.wmlc"; else if ((len > 5) && !strncasecmp(&what[len - 6], ".wmlsc", 6)) return "application/vnd.wap.wmlscriptc"; else if ((len > 4) && !strncasecmp(&what[len - 5], ".wbmp", 5)) return "image/vnd.wap.wbmp"; else /* and let xdgmime do the fallback. */ return xdg_mime_get_mime_type_from_file_name(what); } static HashList *IconHash = NULL; typedef struct IconName IconName; struct IconName { char *FlatName; char *FileName; }; static void DeleteIcon(void *IconNamePtr) { IconName *Icon = (IconName*) IconNamePtr; free(Icon->FlatName); free(Icon->FileName); free(Icon); } /* static const char *PrintFlat(void *IconNamePtr) { IconName *Icon = (IconName*) IconNamePtr; return Icon->FlatName; } static const char *PrintFile(void *IconNamePtr) { IconName *Icon = (IconName*) IconNamePtr; return Icon->FileName; } */ #define GENSTR "x-generic" #define IGNORE_PREFIX_1 "gnome-mime" int LoadIconDir(const char *DirName) { DIR *filedir = NULL; struct dirent *filedir_entry; int d_namelen; int d_without_ext; IconName *Icon; filedir = opendir (DirName); IconHash = NewHash(1, NULL); if (filedir == NULL) { return 0; } while ((filedir_entry = readdir(filedir))) { char *MinorPtr; char *PStart; #ifdef _DIRENT_HAVE_D_NAMELEN d_namelen = filedir_entry->d_namelen; #else d_namelen = strlen(filedir_entry->d_name); #endif d_without_ext = d_namelen; while ((d_without_ext > 0) && (filedir_entry->d_name[d_without_ext] != '.')) d_without_ext --; if ((d_without_ext == 0) || (d_namelen < 3)) continue; if ((sizeof(IGNORE_PREFIX_1) < d_namelen) && (strncmp(IGNORE_PREFIX_1, filedir_entry->d_name, sizeof(IGNORE_PREFIX_1) - 1) == 0)) { PStart = filedir_entry->d_name + sizeof(IGNORE_PREFIX_1); d_without_ext -= sizeof(IGNORE_PREFIX_1); } else { PStart = filedir_entry->d_name; } Icon = malloc(sizeof(IconName)); Icon->FileName = malloc(d_namelen + 1); memcpy(Icon->FileName, filedir_entry->d_name, d_namelen + 1); Icon->FlatName = malloc(d_without_ext + 1); memcpy(Icon->FlatName, PStart, d_without_ext); Icon->FlatName[d_without_ext] = '\0'; /* Try to find Minor type in image-jpeg */ MinorPtr = strchr(Icon->FlatName, '-'); if (MinorPtr != NULL) { size_t MinorLen; MinorLen = 1 + d_without_ext - (MinorPtr - Icon->FlatName + 1); if ((MinorLen == sizeof(GENSTR)) && (strncmp(MinorPtr + 1, GENSTR, sizeof(GENSTR)) == 0)) { /* ok, we found a generic filename. cut the generic. */ *MinorPtr = '\0'; d_without_ext = d_without_ext - (MinorPtr - Icon->FlatName); } else { /* Map the major / minor separator to / */ *MinorPtr = '/'; } } // PrintHash(IconHash, PrintFlat, PrintFile); // printf("%s - %s\n", Icon->FlatName, Icon->FileName); Put(IconHash, Icon->FlatName, d_without_ext, Icon, DeleteIcon); // PrintHash(IconHash, PrintFlat, PrintFile); } closedir(filedir); return 1; } const char *GetIconFilename(char *MimeType, size_t len) { void *vIcon; IconName *Icon; if(IconHash == NULL) return NULL; GetHash(IconHash, MimeType, len, &vIcon), Icon = (IconName*) vIcon; /* didn't find the exact mimetype? try major only. */ if (Icon == NULL) { char * pMinor; pMinor = strchr(MimeType, '/'); if (pMinor != NULL) { *pMinor = '\0'; GetHash(IconHash, MimeType, pMinor - MimeType, &vIcon), Icon = (IconName*) vIcon; } } if (Icon == NULL) { return NULL; } /*printf("Getting: [%s] == [%s] -> [%s]\n", MimeType, Icon->FlatName, Icon->FileName);*/ return Icon->FileName; } void ShutDownLibCitadelMime(void) { DeleteHash(&IconHash); }