/* * parser_utils.c */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include "trans.h" void init_state(struct parser_state *state){ int i; state->message_state = MSG_UNDEF; state->line_num = 0; state->is_header = 1; state->is_1st_header = 1; state->textplain = 1; /* by default we are a text/plain message */ state->texthtml = 0; state->message_rfc822 = 0; state->base64 = 0; state->utf8 = 0; state->qp = 0; state->htmltag = 0; state->style = 0; state->skip_html = 0; state->content_type_is_set = 0; memset(state->message_id, 0, SMALLBUFSIZE); memset(state->message_id_hash, 0, 2*DIGEST_LENGTH+1); memset(state->miscbuf, 0, MAX_TOKEN_LEN); memset(state->qpbuf, 0, MAX_TOKEN_LEN); memset(state->type, 0, TINYBUFSIZE); memset(state->attachment_name_buf, 0, SMALLBUFSIZE); state->anamepos = 0; state->has_to_dump = 0; state->has_to_dump_whole_body = 0; state->fd = -1; state->b64fd = -1; state->mfd = -1; state->realbinary = 0; state->octetstream = 0; state->pushed_pointer = 0; state->saved_size = 0; state->writebufpos = 0; state->abufpos = 0; inithash(state->boundaries); inithash(state->rcpt); inithash(state->rcpt_domain); inithash(state->journal_recipient); state->n_attachments = 0; for(i=0; iattachments[i].size = 0; state->attachments[i].dumped = 0; memset(state->attachments[i].type, 0, TINYBUFSIZE); memset(state->attachments[i].shorttype, 0, TINYBUFSIZE); memset(state->attachments[i].aname, 0, TINYBUFSIZE); memset(state->attachments[i].filename, 0, SMALLBUFSIZE); memset(state->attachments[i].internalname, 0, TINYBUFSIZE); memset(state->attachments[i].digest, 0, 2*DIGEST_LENGTH+1); } memset(state->reference, 0, SMALLBUFSIZE); memset(state->b_from, 0, SMALLBUFSIZE); memset(state->b_from_domain, 0, SMALLBUFSIZE); memset(state->b_to, 0, MAXBUFSIZE); memset(state->b_to_domain, 0, SMALLBUFSIZE); memset(state->b_subject, 0, MAXBUFSIZE); memset(state->b_body, 0, BIGBUFSIZE); memset(state->b_journal_to, 0, MAXBUFSIZE); state->tolen = 0; state->todomainlen = 0; state->bodylen = 0; state->journaltolen = 0; state->retention = 0; } long get_local_timezone_offset(){ time_t t = time(NULL); struct tm lt = {0}; localtime_r(&t, <); return lt.tm_gmtoff; } time_t parse_date_header(char *datestr){ int n=0; long offset=0; time_t ts=0; char *p, *q, *r, *tz, s[SMALLBUFSIZE], tzh[4], tzm[3]; struct tm tm; datestr += 5; p = datestr; for(; *datestr; datestr++){ if(isspace(*datestr) || *datestr == '.') *datestr = ' '; } datestr = p; for(; *datestr != '\0' && datestr - p < 16; datestr++){ if(*datestr == '-') *datestr = ' '; } datestr = p; if(*p == ' '){ p++; } tm.tm_wday = 0; tm.tm_mday = 0; tm.tm_mon = -1; tm.tm_year = 0; tm.tm_hour = 0; tm.tm_min = 0; tm.tm_sec = 0; tm.tm_isdst = -1; do { p = split_str(p, " ", s, sizeof(s)-1); int len = strlen(s); if(len > 0){ n++; /* * A proper Date: header should look like this: * * Date: Mon, 3 Feb 2014 13:21:07 +0100 * * * However some email applications provide crap, eg. * * Sat, 4 Aug 2007 13:36:52 GMT-0700 * Sat, 4 Aug 07 13:36:52 GMT-0700 * 16 Dec 07 20:45:52 * 03 Jun 06 05:59:00 +0100 * 30.06.2005 17:47:42 * 03-Feb-2014 08:09:10 * 13 Mar 2013 14:56:02 UT * * [wday] mday mon year h:m:s offset */ q = strchr(s, ','); if(q) *q='\0'; if(strncasecmp(s, "Jan", 3) == 0) tm.tm_mon = 0; else if(strncasecmp(s, "Feb", 3) == 0) tm.tm_mon = 1; else if(strncasecmp(s, "Mar", 3) == 0) tm.tm_mon = 2; else if(strncasecmp(s, "Apr", 3) == 0) tm.tm_mon = 3; else if(strncasecmp(s, "May", 3) == 0) tm.tm_mon = 4; else if(strncasecmp(s, "Jun", 3) == 0) tm.tm_mon = 5; else if(strncasecmp(s, "Jul", 3) == 0) tm.tm_mon = 6; else if(strncasecmp(s, "Aug", 3) == 0) tm.tm_mon = 7; else if(strncasecmp(s, "Sep", 3) == 0) tm.tm_mon = 8; else if(strncasecmp(s, "Oct", 3) == 0) tm.tm_mon = 9; else if(strncasecmp(s, "Nov", 3) == 0) tm.tm_mon = 10; else if(strncasecmp(s, "Dec", 3) == 0) tm.tm_mon = 11; if(strncasecmp(s, "Mon", 3) == 0) tm.tm_wday = 1; else if(strncasecmp(s, "Tue", 3) == 0) tm.tm_wday = 2; else if(strncasecmp(s, "Wed", 3) == 0) tm.tm_wday = 3; else if(strncasecmp(s, "Thu", 3) == 0) tm.tm_wday = 4; else if(strncasecmp(s, "Fri", 3) == 0) tm.tm_wday = 5; else if(strncasecmp(s, "Sat", 3) == 0) tm.tm_wday = 6; else if(strncasecmp(s, "Sun", 3) == 0) tm.tm_wday = 0; if(len <= 2 && tm.tm_mday == 0){ tm.tm_mday = atoi(s); continue; } if(len <= 2 && tm.tm_mon == -1){ tm.tm_mon = atoi(s) - 1; continue; } if(len == 2){ if(atoi(s) >=90) tm.tm_year = atoi(s); else tm.tm_year = atoi(s) + 100; continue; } if(len == 4 && atoi(s) > 1900){ tm.tm_year = atoi(s) - 1900; continue; } if(len == 3){ if(strcmp(s, "EDT") == 0) offset = -14400; else if(strcmp(s, "EST") == 0) offset = -18000; else if(strcmp(s, "CDT") == 0) offset = -18000; else if(strcmp(s, "CST") == 0) offset = -21600; else if(strcmp(s, "MDT") == 0) offset = -21600; else if(strcmp(s, "MST") == 0) offset = -25200; else if(strcmp(s, "PDT") == 0) offset = -25200; else if(strcmp(s, "PST") == 0) offset = -28800; continue; } if((len == 5 && (*s == '+' || *s == '-')) || (len == 8 && (strncmp(s, "GMT+", 4) == 0 || strncmp(s, "GMT-", 4) == 0))){ offset = 0; tz = strpbrk(s, "+-"); if(tz){ memset(tzh, 0, 4); memset(tzm, 0, 3); strncpy(tzh, tz, 3); strncpy(tzm, tz+3, 2); offset += atoi(tzh) * 3600; offset += atoi(tzm) * 60; } continue; } if(len == 5 || len == 7 || len == 8){ r = &s[0]; q = strchr(r, ':'); if(!q) continue; *q = '\0'; tm.tm_hour = atoi(r); r = q+1; *q = ':'; if(strlen(r) == 5) { q = strchr(r, ':'); if(!q) continue; *q = '\0'; tm.tm_min = atoi(r); r = q+1; *q = ':'; tm.tm_sec = atoi(r); } else { tm.tm_min = atoi(r); } continue; } } } while(p); if(tm.tm_mon == -1) tm.tm_mon = 0; ts = mktime(&tm); ts += get_local_timezone_offset() - offset; return ts; } int extract_boundary(char *p, struct parser_state *state){ char *q; p += strlen("boundary"); q = strchr(p, '"'); if(q) *q = ' '; /* * I've seen an idiot spammer using the following boundary definition in the header: * * Content-Type: multipart/alternative; * boundary=3D"b1_52b92b01a943615aff28b7f4d2f2d69d" */ if(strncmp(p, "=3D", 3) == 0){ *(p+3) = '='; p += 3; } p = strchr(p, '='); if(p){ p++; for(; *p; p++){ if(isspace(*p) == 0) break; } char *q2 = strchr(p, ';'); if(q2) *q2 = '\0'; q = strrchr(p, '"'); if(q) *q = '\0'; q = strrchr(p, '\r'); if(q) *q = '\0'; q = strrchr(p, '\n'); if(q) *q = '\0'; addnode(state->boundaries, p); if(q2) *q2 = ';'; return 1; } return 0; } void fixupEncodedHeaderLine(char *buf, int buflen){ char *q, *r, *s, *e, *end; /* * I thought SMALLBUFSIZE would be enough for v, encoding and tmpbuf(2*), * but then I saw a 6-7000 byte long subject line, so I've switched to MAXBUFSIZE */ char v[MAXBUFSIZE], u[MAXBUFSIZE], puf[MAXBUFSIZE], encoding[MAXBUFSIZE], tmpbuf[2*MAXBUFSIZE]; int need_encoding, ret, prev_encoded=0, n_tokens=0; if(buflen < 5) return; memset(puf, 0, sizeof(puf)); q = buf; do { q = split_str(q, " ", v, sizeof(v)-1); char *p = v; do { memset(u, 0, sizeof(u)); /* * We can't use split_str(p, "=?", ...) it will fail with the following pattern * =?UTF-8?B?SG9neWFuIMOtcmp1bmsgcGFuYXN6bGV2ZWxldD8=?= * * Also the below pattern requires special care: * =?gb2312?B??==?gb2312?Q??= * * And we have to check the following cases as well: * Happy New Year! =?utf-8?q?=F0=9F=8E=86?= */ int b64=0, qp=0; memset(encoding, 0, sizeof(encoding)); r = strstr(p, "=?"); if(r){ p = r + 2; e = strchr(p, '?'); if(e){ *e = '\0'; snprintf(encoding, sizeof(encoding)-1, "%s", p); *e = '?'; s = strcasestr(e, "?B?"); if(s){ b64 = 1; p = s + 3; } else { s = strcasestr(e, "?Q?"); if(s){ qp = 1; p = s + 3; } } } end = strstr(p, "?="); if(end){ *end = '\0'; } snprintf(u, sizeof(u)-1, "%s", p); if(end) { p = end + 2; } } else { snprintf(u, sizeof(u)-1, "%s", p); p = NULL; } if(u[0] == 0) continue; n_tokens++; if(b64 == 1) decodeBase64(u); else if(qp == 1) decodeQP(u); /* * https://www.ietf.org/rfc/rfc2047.txt says that * * "When displaying a particular header field that contains multiple * 'encoded-word's, any 'linear-white-space' that separates a pair of * adjacent 'encoded-word's is ignored." (6.2) */ if(prev_encoded == 1 && (b64 == 1 || qp == 1)) {} else if(n_tokens > 1){ strncat(puf, " ", sizeof(puf)-strlen(puf)-1); } if(b64 == 1 || qp == 1){ prev_encoded = 1; need_encoding = 0; ret = ERR; if(encoding[0] && strcasecmp(encoding, "utf-8")){ need_encoding = 1; ret = utf8_encode(u, strlen(u), &tmpbuf[0], sizeof(tmpbuf), encoding); } if(need_encoding == 1 && ret == OK){ #pragma GCC diagnostic push #pragma GCC diagnostic ignored "-Wstringop-truncation" strncat(puf, tmpbuf, sizeof(puf)-strlen(puf)-1); } else { strncat(puf, u, sizeof(puf)-strlen(puf)-1); } } else { strncat(puf, u, sizeof(puf)-strlen(puf)-1); } } while(p); } while(q); snprintf(buf, buflen-1, "%s", puf); } void fixupSoftBreakInQuotedPritableLine(char *buf, struct parser_state *state){ int i=0; if(strlen(state->qpbuf) > 0){ char puf[MAXBUFSIZE]; memset(puf, 0, sizeof(puf)); snprintf(puf, sizeof(puf)-1, "%s%s", state->qpbuf, buf); snprintf(buf, MAXBUFSIZE-1, "%s", puf); memset(state->qpbuf, 0, MAX_TOKEN_LEN); } if(buf[strlen(buf)-1] == '='){ buf[strlen(buf)-1] = '\0'; i = 1; } if(i == 1){ char *p = strrchr(buf, ' '); if(p){ memset(state->qpbuf, 0, MAX_TOKEN_LEN); if(strlen(p) < MAX_TOKEN_LEN-1){ memcpy(&(state->qpbuf[0]), p, MAX_TOKEN_LEN-1); *p = '\0'; } } } } void fixupBase64EncodedLine(char *buf, struct parser_state *state){ if(strlen(state->miscbuf) > 0){ char puf[MAXBUFSIZE]; memset(puf, 0, sizeof(puf)); strncpy(puf, state->miscbuf, sizeof(puf)-strlen(puf)-1); strncat(puf, buf, sizeof(puf)-strlen(puf)-1); memset(buf, 0, MAXBUFSIZE); memcpy(buf, puf, MAXBUFSIZE); memset(state->miscbuf, 0, MAX_TOKEN_LEN); } if(buf[strlen(buf)-1] != '\n'){ char *p = strrchr(buf, ' '); if(p){ memcpy(&(state->miscbuf[0]), p+1, MAX_TOKEN_LEN-1); *p = '\0'; } } } void markHTML(char *buf, struct parser_state *state){ char *s, puf[MAXBUFSIZE], html[SMALLBUFSIZE]; int k=0, j=0, pos=0; memset(puf, 0, MAXBUFSIZE); memset(html, 0, SMALLBUFSIZE); s = buf; for(; *s; s++){ if(*s == '<'){ state->htmltag = 1; puf[k] = ' '; k++; memset(html, 0, SMALLBUFSIZE); j=0; pos = 0; //printf("start html:%c\n", *s); } if(state->htmltag == 1){ if(j == 0 && *s == '!'){ state->skip_html = 1; //printf("skiphtml=1\n"); } if(state->skip_html == 0){ if(*s != '>' && *s != '<' && *s != '"'){ //printf("j=%d/%c", j, *s); html[j] = tolower(*s); if(j < SMALLBUFSIZE-10) j++; } if(isspace(*s)){ if(j > 0){ k += appendHTMLTag(puf, html, pos, state); memset(html, 0, SMALLBUFSIZE); j=0; } pos++; } } } else { if(state->style == 0){ puf[k] = *s; k++; } } if(*s == '>'){ state->htmltag = 0; state->skip_html = 0; //printf("skiphtml=0\n"); //printf("end html:%c\n", *s); //strncat(html, " ", SMALLBUFSIZE-1); if(j > 0){ strncat(html, " ", SMALLBUFSIZE-1); k += appendHTMLTag(puf, html, pos, state); memset(html, 0, SMALLBUFSIZE); j=0; } } } //printf("append last in line:*%s*, html=+%s+, j=%d\n", puf, html, j); if(j > 0){ appendHTMLTag(puf, html, pos, state); } strcpy(buf, puf); } int appendHTMLTag(char *buf, char *htmlbuf, int pos, struct parser_state *state){ char html[SMALLBUFSIZE]; int len; if(pos == 0 && strncmp(htmlbuf, "style ", 6) == 0) state->style = 1; if(pos == 0 && strncmp(htmlbuf, "/style ", 7) == 0) state->style = 0; return 0; //printf("appendHTML: pos:%d, +%s+\n", pos, htmlbuf); if(state->style == 1) return 0; if(strlen(htmlbuf) == 0) return 0; snprintf(html, SMALLBUFSIZE-1, "HTML*%s", htmlbuf); len = strlen(html); if(len > 8 && strchr(html, '=')){ char *p = strstr(html, "cid:"); if(p){ *(p+3) = '\0'; strncat(html, " ", SMALLBUFSIZE-1); } strncat(buf, html, MAXBUFSIZE-1); return len; } if(strstr(html, "http") ){ strncat(buf, html+5, MAXBUFSIZE-1); return len-5; } return 0; } void translateLine(unsigned char *p, struct parser_state *state){ int url=0; int has_url=0; unsigned char prev=' '; if(strcasestr((char *)p, "http://") || strcasestr((char *)p, "https://")) has_url = 1; for(; *p; p++){ if( (state->message_state == MSG_RECEIVED || state->message_state == MSG_FROM || state->message_state == MSG_TO || state->message_state == MSG_CC || state->message_state == MSG_RECIPIENT) && *p == '@'){ continue; } if(state->message_state == MSG_FROM || state->message_state == MSG_TO || state->message_state == MSG_CC || state->message_state == MSG_RECIPIENT){ /* To fix some unusual addresses, eg. * "'user@domain'" -> user@domain * "''user@domain'" -> 'user@domain * "''user'@domain'" -> 'user'@domain * "'user'@domain'" -> user'@domain */ if(*p == '\'' && prev == '"') { *p = ' '; } if(*p == '\'' && *(p+1) == '"'){ *p = ' '; } if(*p == '_' || *p == '\'' || *p == '&' || *p == '+'){ continue; } prev = *p; } if(state->message_state == MSG_SUBJECT && (*p == '%' || *p == '_' || *p == '&') ){ continue; } if(state->message_state == MSG_CONTENT_TYPE && *p == '_' ){ continue; } if(*p == '.' || *p == '-'){ continue; } if(has_url == 1){ if(strncasecmp((char *)p, "http://", 7) == 0){ p += 7; url = 1; continue; } if(strncasecmp((char *)p, "https://", 8) == 0){ p += 8; url = 1; continue; } if(url == 1 && (*p == '.' || *p == '-' || *p == '_' || *p == '/' || *p == '%' || *p == '?' || isalnum(*p)) ) continue; if(url == 1) url = 0; } if(delimiter_characters[(unsigned int)*p] != ' ') *p = ' '; /* we MUSTN'T convert it to lowercase in the 'else' case, because it breaks utf-8 encoding! */ } } void fix_email_address_for_sphinx(char *s){ for(; *s; s++){ if(*s == '@' || *s == '.' || *s == '+' || *s == '-' || *s == '_') *s = 'X'; } } void split_email_address(char *s){ for(; *s; s++){ if(*s == '@' || *s == '.' || *s == '+' || *s == '-' || *s == '_') *s = ' '; } } int does_it_seem_like_an_email_address(char *email){ char *p; if(email == NULL) return 0; if(strlen(email) < 5) return 0; p = strchr(email, '@'); if(!p) return 0; if(strlen(p+1) < 3) return 0; if(!strchr(p+1, '.')) return 0; return 1; } void add_recipient(char *email, unsigned int len, struct session_data *sdata, struct parser_state *state, struct data *data, struct config *cfg){ if(findnode(state->rcpt, email) == NULL){ char *q = strchr(email, '@'); /* skip any address matching ...@cfg->hostid, 2013.10.29, SJ */ if(q && strncmp(q+1, cfg->hostid, cfg->hostid_len) == 0){ return; } addnode(state->rcpt, email); memcpy(&(state->b_to[state->tolen]), email, len); state->tolen += len; if(len >= MIN_EMAIL_ADDRESS_LEN && does_it_seem_like_an_email_address(email) == 1){ if(is_email_address_on_my_domains(email, data) == 1) sdata->internal_recipient = 1; else sdata->external_recipient = 1; if(q){ if(findnode(state->rcpt_domain, q+1) == NULL){ addnode(state->rcpt_domain, q+1); unsigned int domainlen = strlen(q+1); if(state->todomainlen < SMALLBUFSIZE-domainlen-1){ memcpy(&(state->b_to_domain[state->todomainlen]), q+1, domainlen); state->todomainlen += domainlen; } } } if(state->tolen < MAXBUFSIZE-len-1){ split_email_address(email); memcpy(&(state->b_to[state->tolen]), email, len); state->tolen += len; } } } } /* * reassemble 'V i a g r a' to 'Viagra' */ void reassembleToken(char *p){ unsigned int i, k=0; for(i=0; i 9 && fixed_url[len-2] == 'X'){ fixed_url[len-2] = ' '; fixed_url[len-1] = '\0'; } snprintf(buf, buflen, "%s", fixed_url); } void extractNameFromHeaderLine(char *s, char *name, char *resultbuf, int resultbuflen){ char buf[SMALLBUFSIZE], *p, *q; snprintf(buf, sizeof(buf)-1, "%s", s); memset(resultbuf, 0, resultbuflen); p = strstr(buf, name); if(p){ /* * * Some examples from http://tools.ietf.org/html/rfc5987: * * Non-extended notation, using "token": * * foo: bar; title=Economy * * Non-extended notation, using "quoted-string": * * foo: bar; title="US-$ rates" * * Extended notation, using the Unicode character U+00A3 (POUND SIGN): * * foo: bar; title*=iso-8859-1'en'%A3%20rates * * Extended notation, using the Unicode characters U+00A3 (POUND SIGN) and U+20AC (EURO SIGN): * * foo: bar; title*=UTF-8''%c2%a3%20and%20%e2%82%ac%20rates * * Odd one having two filename definitions, and having a semicolon (;) in the filename: * * filename*=utf-8''P;LAN%20Holden%204.docx;filename="P;LAN Holden 4.docx"* * * */ int extended=0; p += strlen(name); if(*p == '*'){ extended = 1; } p = strchr(p, '='); if(p){ p++; // skip any whitespace after name=, ie. name = " while(*p==' ' || *p=='\t') p++; // if there's a double quote after the equal symbol (=), ie. name*="utf-8.... if(*p == '"'){ p++; q = strchr(p, '"'); if(q) *q = '\0'; } else { // no " after =, so split on ; q = strchr(p, ';'); if(q) *q = '\0'; } if(extended == 1){ char *encoding = p; q = strchr(p, '\''); if(q){ *q = '\0'; p = q + 1; q = strchr(p, '\''); if(q) p = q + 1; } decodeURL(p); if(strlen(encoding) > 2 && strcasecmp(encoding, "utf-8")) utf8_encode(p, strlen(p), resultbuf, resultbuflen-2, encoding); else snprintf(resultbuf, resultbuflen-2, "%s", p); } else { char puf[SMALLBUFSIZE]; snprintf(puf, sizeof(puf)-1, "%s", p); fixupEncodedHeaderLine(puf, sizeof(puf)); snprintf(resultbuf, resultbuflen-2, "%s", puf); } } } } char *determine_attachment_type(char *filename, char *type){ if(strncasecmp(type, "text/", strlen("text/")) == 0) return "text,"; if(strncasecmp(type, "image/", strlen("image/")) == 0) return "image,"; if(strncasecmp(type, "audio/", strlen("audio/")) == 0) return "audio,"; if(strncasecmp(type, "video/", strlen("video/")) == 0) return "video,"; if(strncasecmp(type, "text/x-card", strlen("text/x-card")) == 0) return "vcard,"; if(strncasecmp(type, "application/pdf", strlen("application/pdf")) == 0) return "pdf,"; if(strncasecmp(type, "application/ms-tnef", strlen("application/ms-tnef")) == 0) return "tnef,"; if(strncasecmp(type, "application/msword", strlen("application/msword")) == 0) return "word,"; // a .csv file has the same type if(strncasecmp(type, "application/vnd.ms-excel", strlen("application/vnd.ms-excel")) == 0) return "excel,"; if(strncasecmp(type, "application/vnd.ms-powerpoint", strlen("application/vnd.ms-powerpoint")) == 0) return "powerpoint,"; if(strncasecmp(type, "application/vnd.visio", strlen("application/vnd.visio")) == 0) return "visio,"; if(strncasecmp(type, "application/vnd.openxmlformats-officedocument.wordprocessingml.document", strlen("application/vnd.openxmlformats-officedocument.wordprocessingml.document")) == 0) return "word,"; if(strncasecmp(type, "application/vnd.openxmlformats-officedocument.spreadsheetml.sheet", strlen("application/vnd.openxmlformats-officedocument.spreadsheetml.sheet")) == 0) return "excel,"; if(strncasecmp(type, "application/vnd.openxmlformats-officedocument.presentationml.presentation", strlen("application/vnd.openxmlformats-officedocument.presentationml.presentation")) == 0) return "powerpoint,"; if(strncasecmp(type, "application/x-shockwave-flash", strlen("application/x-shockwave-flash")) == 0) return "flash,"; if(strcasestr(type, "opendocument")) return "odf,"; if(strncasecmp(type, "application/", 12) == 0){ char *p = strrchr(filename, '.'); if(p){ p++; if(strncasecmp(p, "pdf", 3) == 0) return "pdf,"; if(strncasecmp(p, "zip", 3) == 0) return "compressed,"; if(strncasecmp(p, "rar", 3) == 0) return "compressed,"; // tar.gz has the same type if(strncasecmp(p, "x-gzip", 3) == 0) return "compressed,"; if(strncasecmp(p, "rtf", 3) == 0) return "word,"; if(strncasecmp(p, "doc", 3) == 0) return "word,"; if(strncasecmp(p, "docx", 4) == 0) return "word,"; if(strncasecmp(p, "xls", 3) == 0) return "excel,"; if(strncasecmp(p, "xlsx", 4) == 0) return "excel,"; if(strncasecmp(p, "ppt", 3) == 0) return "powerpoint,"; if(strncasecmp(p, "pptx", 4) == 0) return "powerpoint,"; if(strncasecmp(p, "png", 3) == 0) return "image,"; if(strncasecmp(p, "gif", 3) == 0) return "image,"; if(strncasecmp(p, "jpg", 3) == 0) return "image,"; if(strncasecmp(p, "jpeg", 4) == 0) return "image,"; if(strncasecmp(p, "tiff", 4) == 0) return "image,"; } } return "other,"; } char *get_attachment_extractor_by_filename(char *filename){ char *p; if(strcasecmp(filename, "winmail.dat") == 0) return "tnef"; p = strrchr(filename, '.'); if(!p) return "other"; if(strcasecmp(p, ".pdf") == 0) return "pdf"; if(strcasecmp(p, ".zip") == 0) return "zip"; if(strcasecmp(p, ".gz") == 0) return "gzip"; if(strcasecmp(p, ".rar") == 0) return "rar"; if(strcasecmp(p, ".odt") == 0) return "odf"; if(strcasecmp(p, ".odp") == 0) return "odf"; if(strcasecmp(p, ".ods") == 0) return "odf"; if(strcasecmp(p, ".doc") == 0) return "doc"; if(strcasecmp(p, ".docx") == 0) return "docx"; if(strcasecmp(p, ".xls") == 0) return "xls"; if(strcasecmp(p, ".xlsx") == 0) return "xlsx"; if(strcasecmp(p, ".ppt") == 0) return "ppt"; if(strcasecmp(p, ".pptx") == 0) return "pptx"; if(strcasecmp(p, ".rtf") == 0) return "rtf"; if(strcasecmp(p, ".txt") == 0) return "text"; if(strcasecmp(p, ".csv") == 0) return "text"; return "other"; } void parse_reference(struct parser_state *state, char *s){ char puf[SMALLBUFSIZE]; if(strlen(state->reference) > 10) return; do { s = split_str(s, " ", puf, sizeof(puf)-1); int len = strlen(puf); if(len > 10 && len < SMALLBUFSIZE-1){ memcpy(&(state->reference[strlen(state->reference)]), puf, len); return; } } while(s); } int base64_decode_attachment_buffer(char *p, unsigned char *b, int blen){ int b64len=0; char puf[2*SMALLBUFSIZE]; do { p = split_str(p, "\n", puf, sizeof(puf)-1); trimBuffer(puf); b64len += decode_base64_to_buffer(puf, strlen(puf), b+b64len, blen); } while(p); return b64len; } void fix_plus_sign_in_email_address(char *puf, char **at_sign, unsigned int *len){ char *r; r = strchr(puf, '+'); if(r){ int n = strlen(*at_sign); memmove(r, *at_sign, n); *(r+n) = '\0'; *len = strlen(puf); *at_sign = r; } } void fill_attachment_name_buf(struct parser_state *state, char *buf){ char *p = &buf[0]; for(; *p; p++){ if(*p != ' ' && *p != '\t') break; } int len = strlen(p); if(len + state->anamepos < SMALLBUFSIZE-3){ memcpy(&(state->attachment_name_buf[state->anamepos]), p, len); state->anamepos += len; // add a trailing separator semicolon to make sure there's separation // with the next item state->attachment_name_buf[state->anamepos] = ';'; state->anamepos++; } }