/* * $LynxId: HTMIME.c,v 1.102 2022/03/12 14:47:02 tom Exp $ * * MIME Message Parse HTMIME.c * ================== * * This is RFC 1341-specific code. * The input stream pushed into this parser is assumed to be * stripped on CRs, ie lines end with LF, not CR LF. * (It is easy to change this except for the body part where * conversion can be slow.) * * History: * Feb 92 Written Tim Berners-Lee, CERN * */ #define HTSTREAM_INTERNAL 1 #include #include /* Implemented here */ #include /* for redirecting_url */ #include #include #include #include #include #include #include #include #include #include #include #include #include /* MIME Object * ----------- */ typedef enum { MIME_TRANSPARENT, /* put straight through to target ASAP! */ /* states for "Transfer-Encoding: chunked" */ MIME_CHUNKED, mcCHUNKED_COUNT_DIGIT, mcCHUNKED_COUNT_CR, mcCHUNKED_COUNT_LF, mcCHUNKED_EXTENSION, mcCHUNKED_DATA, mcCHUNKED_DATA_CR, mcCHUNKED_DATA_LF, /* character state-machine */ miBEGINNING_OF_LINE, /* first character and not a continuation */ miA, miACCEPT_RANGES, miAGE, miAL, miALLOW, miALTERNATES, miC, miCACHE_CONTROL, miCO, miCOOKIE, miCON, miCONNECTION, miCONTENT_, miCONTENT_BASE, miCONTENT_DISPOSITION, miCONTENT_ENCODING, miCONTENT_FEATURES, miCONTENT_L, miCONTENT_LANGUAGE, miCONTENT_LENGTH, miCONTENT_LOCATION, miCONTENT_MD5, miCONTENT_RANGE, miCONTENT_T, miCONTENT_TRANSFER_ENCODING, miCONTENT_TYPE, miDATE, miE, miETAG, miEXPIRES, miKEEP_ALIVE, miL, miLAST_MODIFIED, miLINK, miLOCATION, miP, miPR, miPRAGMA, miPROXY_AUTHENTICATE, miPUBLIC, miR, miRE, miREFRESH, miRETRY_AFTER, miS, miSAFE, miSE, miSERVER, miSET_COOKIE, miSET_COOKIE1, miSET_COOKIE2, miT, miTITLE, miTRANSFER_ENCODING, miU, miUPGRADE, miURI, miV, miVARY, miVIA, miW, miWARNING, miWWW_AUTHENTICATE, miSKIP_GET_VALUE, /* Skip space then get value */ miGET_VALUE, /* Get value till white space */ miJUNK_LINE, /* Ignore the rest of this folded line */ miNEWLINE, /* Just found a LF .. maybe continuation */ miCHECK, /* check against check_pointer */ MIME_NET_ASCII, /* Translate from net ascii */ MIME_IGNORE /* Ignore entire file */ /* TRANSPARENT and IGNORE are defined as stg else in _WINDOWS */ } MIME_state; #define VALUE_SIZE 5120 /* @@@@@@@ Arbitrary? */ struct _HTStream { const HTStreamClass *isa; BOOL net_ascii; /* Is input net ascii? */ MIME_state state; /* current state */ MIME_state if_ok; /* got this state if match */ MIME_state field; /* remember which field */ MIME_state fold_state; /* state on a fold */ BOOL head_only; /* only parsing header */ BOOL pickup_redirection; /* parsing for location */ BOOL no_streamstack; /* use sink directly */ const char *check_pointer; /* checking input */ char *value_pointer; /* storing values */ char value[VALUE_SIZE]; HTParentAnchor *anchor; /* Given on creation */ HTStream *sink; /* Given on creation */ char *boundary; /* For multipart */ char *set_cookie; /* Set-Cookie */ char *set_cookie2; /* Set-Cookie2 */ char *location; /* Location */ char *refresh_url; /* "Refresh:" URL */ HTFormat c_t_encoding; /* Content-Transfer-Encoding */ char *compression_encoding; BOOL chunked_encoding; /* Transfer-Encoding: chunked */ long chunked_size; /* ...counter for "chunked" */ HTFormat format; /* Content-Type */ HTStream *target; /* While writing out */ HTStreamClass targetClass; HTAtom *targetRep; /* Converting into? */ }; /* * This function is for trimming off any paired * open- and close-double quotes from header values. * It does not parse the string for embedded quotes, * and will not modify the string unless both the * first and last characters are double-quotes. - FM */ void HTMIME_TrimDoubleQuotes(char *value) { size_t i; char *cp = value; if (isEmpty(cp) || *cp != '"') return; i = strlen(cp); if (cp[(i - 1)] != '"') return; else cp[(i - 1)] = '\0'; for (i = 0; value[i]; i++) value[i] = cp[(i + 1)]; } /* * Check if the token from "Content-Encoding" corresponds to a compression * type. */ static BOOL content_is_compressed(HTStream *me) { char *encoding = me->anchor->content_encoding; BOOL result = (BOOL) (HTEncodingToCompressType(encoding) != cftNone); CTRACE((tfp, "content is%s compressed\n", result ? "" : " NOT")); return result; } /* * Strip quotes from a refresh-URL. */ static void dequote(char *url) { size_t len; len = strlen(url); if (*url == '\'' && len > 1 && url[len - 1] == url[0]) { url[len - 1] = '\0'; while ((url[0] = url[1]) != '\0') { ++url; } } } /* * Strip off any compression-suffix from the address and check if the result * looks like one of the presentable suffixes. If so, return the corresponding * MIME type. */ static const char *UncompressedContentType(HTStream *me, CompressFileType method) { const char *result = 0; char *address = me->anchor->address; const char *expected = HTCompressTypeToSuffix(method); const char *actual = strrchr(address, '.'); /* * We have to ensure the suffix is consistent, to use HTFileFormat(). */ if (actual != 0 && !strcasecomp(actual, expected)) { HTFormat format; HTAtom *pencoding = 0; const char *description = 0; format = HTFileFormat(address, &pencoding, &description); result = HTAtom_name(format); } return result; } static int pumpData(HTStream *me) { CompressFileType method; const char *new_encoding; const char *new_content; CTRACE((tfp, "Begin pumpData\n")); /* * If the content-type says it is compressed, and there is no * content-encoding, check further and see if the address (omitting the * suffix for a compressed type) looks like a type we can present. If so, * rearrange things so we'll present the StreamStack code with the * presentable type, already marked as compressed. */ CTRACE((tfp, "...address{%s}\n", me->anchor->address)); method = HTContentTypeToCompressType(me->anchor->content_type_params); if (isEmpty(me->anchor->content_encoding)) me->anchor->no_content_encoding = TRUE; if ((method != cftNone) && isEmpty(me->anchor->content_encoding) && (new_content = UncompressedContentType(me, method)) != 0) { new_encoding = HTCompressTypeToEncoding(method); CTRACE((tfp, "reinterpreting as content-type:%s, encoding:%s\n", new_content, new_encoding)); StrAllocCopy(me->anchor->content_encoding, new_encoding); FREE(me->compression_encoding); StrAllocCopy(me->compression_encoding, new_encoding); LYStrNCpy(me->value, new_content, VALUE_SIZE - 1); StrAllocCopy(me->anchor->content_type_params, me->value); me->format = HTAtom_for(me->value); } if (StrChr(HTAtom_name(me->format), ';') != NULL) { char *cp = NULL, *cp1, *cp2, *cp3 = NULL, *cp4; CTRACE((tfp, "HTMIME: Extended MIME Content-Type is %s\n", HTAtom_name(me->format))); StrAllocCopy(cp, HTAtom_name(me->format)); /* * Note that the Content-Type value was converted * to lower case when we loaded into me->format, * but there may have been a mixed or upper-case * atom, so we'll force lower-casing again. We * also stripped spaces and double-quotes, but * we'll make sure they're still gone from any * charset parameter we check. - FM */ LYLowerCase(cp); if ((cp1 = StrChr(cp, ';')) != NULL) { BOOL chartrans_ok = NO; if ((cp2 = strstr(cp1, "charset")) != NULL) { int chndl; cp2 += 7; while (*cp2 == ' ' || *cp2 == '=' || *cp2 == '"') cp2++; StrAllocCopy(cp3, cp2); /* copy to mutilate more */ for (cp4 = cp3; (*cp4 != '\0' && *cp4 != '"' && *cp4 != ';' && *cp4 != ':' && !WHITE(*cp4)); cp4++) ; /* do nothing */ *cp4 = '\0'; cp4 = cp3; chndl = UCGetLYhndl_byMIME(cp3); if (UCCanTranslateFromTo(chndl, current_char_set)) { chartrans_ok = YES; *cp1 = '\0'; me->format = HTAtom_for(cp); StrAllocCopy(me->anchor->charset, cp4); HTAnchor_setUCInfoStage(me->anchor, chndl, UCT_STAGE_MIME, UCT_SETBY_MIME); } else if (chndl < 0) { /* got something but we don't recognize it */ chndl = UCLYhndl_for_unrec; if (chndl < 0) /* * UCLYhndl_for_unrec not defined :-( fallback to * UCLYhndl_for_unspec which always valid. */ chndl = UCLYhndl_for_unspec; /* always >= 0 */ if (UCCanTranslateFromTo(chndl, current_char_set)) { chartrans_ok = YES; *cp1 = '\0'; me->format = HTAtom_for(cp); HTAnchor_setUCInfoStage(me->anchor, chndl, UCT_STAGE_MIME, UCT_SETBY_DEFAULT); } } else { /* * Something like 'big5' - we cannot translate it, but * the user may still be able to navigate the links. */ *cp1 = '\0'; me->format = HTAtom_for(cp); StrAllocCopy(me->anchor->charset, cp4); HTAnchor_setUCInfoStage(me->anchor, chndl, UCT_STAGE_MIME, UCT_SETBY_MIME); } if (chartrans_ok) { LYUCcharset *p_in = HTAnchor_getUCInfoStage(me->anchor, UCT_STAGE_MIME); LYUCcharset *p_out = HTAnchor_setUCInfoStage(me->anchor, current_char_set, UCT_STAGE_HTEXT, UCT_SETBY_DEFAULT); if (!p_out) /* * Try again. */ p_out = HTAnchor_getUCInfoStage(me->anchor, UCT_STAGE_HTEXT); if (!strcmp(p_in->MIMEname, "x-transparent")) { HTPassEightBitRaw = TRUE; HTAnchor_setUCInfoStage(me->anchor, HTAnchor_getUCLYhndl(me->anchor, UCT_STAGE_HTEXT), UCT_STAGE_MIME, UCT_SETBY_DEFAULT); } if (!strcmp(p_out->MIMEname, "x-transparent")) { HTPassEightBitRaw = TRUE; HTAnchor_setUCInfoStage(me->anchor, HTAnchor_getUCLYhndl(me->anchor, UCT_STAGE_MIME), UCT_STAGE_HTEXT, UCT_SETBY_DEFAULT); } if ((p_in->enc != UCT_ENC_CJK) #ifdef USE_JAPANESEUTF8_SUPPORT && ((p_in->enc != UCT_ENC_UTF8) || (p_out->enc != UCT_ENC_CJK)) #endif ) { HTCJK = NOCJK; if (!(p_in->codepoints & UCT_CP_SUBSETOF_LAT1) && chndl == current_char_set) { HTPassEightBitRaw = TRUE; } } else if (p_out->enc == UCT_ENC_CJK) { Set_HTCJK(p_in->MIMEname, p_out->MIMEname); } } else { /* * Cannot translate. If according to some heuristic the * given charset and the current display character both are * likely to be like ISO-8859 in structure, pretend we have * some kind of match. */ BOOL given_is_8859 = (BOOL) (!StrNCmp(cp4, "iso-8859-", 9) && isdigit(UCH(cp4[9]))); BOOL given_is_8859like = (BOOL) (given_is_8859 || !StrNCmp(cp4, "windows-", 8) || !StrNCmp(cp4, "cp12", 4) || !StrNCmp(cp4, "cp-12", 5)); BOOL given_and_display_8859like = (BOOL) (given_is_8859like && (strstr(LYchar_set_names[current_char_set], "ISO-8859") || strstr(LYchar_set_names[current_char_set], "windows-"))); if (given_and_display_8859like) { *cp1 = '\0'; me->format = HTAtom_for(cp); } if (given_is_8859) { cp1 = &cp4[10]; while (*cp1 && isdigit(UCH(*cp1))) cp1++; *cp1 = '\0'; } if (given_and_display_8859like) { StrAllocCopy(me->anchor->charset, cp4); HTPassEightBitRaw = TRUE; } HTAlert(*cp4 ? cp4 : me->anchor->charset); } FREE(cp3); } else { /* * No charset parameter is present. Ignore all other * parameters, as we do when charset is present. - FM */ *cp1 = '\0'; me->format = HTAtom_for(cp); } } FREE(cp); } /* * If we have an Expires header and haven't already set the no_cache * element for the anchor, check if we should set it based on that header. * - FM */ if (me->anchor->no_cache == FALSE && me->anchor->expires != NULL) { if (!strcmp(me->anchor->expires, "0")) { /* * The value is zero, which we treat as an absolute no-cache * directive. - FM */ me->anchor->no_cache = TRUE; } else if (me->anchor->date != NULL) { /* * We have a Date header, so check if the value is less than or * equal to that. - FM */ if (LYmktime(me->anchor->expires, TRUE) <= LYmktime(me->anchor->date, TRUE)) { me->anchor->no_cache = TRUE; } } else if (LYmktime(me->anchor->expires, FALSE) == 0) { /* * We don't have a Date header, and the value is in past for us. - * FM */ me->anchor->no_cache = TRUE; } } StrAllocCopy(me->anchor->content_type, HTAtom_name(me->format)); if (me->set_cookie != NULL || me->set_cookie2 != NULL) { LYSetCookie(me->set_cookie, me->set_cookie2, me->anchor->address); FREE(me->set_cookie); FREE(me->set_cookie2); } if (me->pickup_redirection) { if (me->location && *me->location) { redirecting_url = me->location; me->location = NULL; if (me->targetRep != WWW_DEBUG || me->sink) me->head_only = YES; } else { permanent_redirection = FALSE; if (me->location) { CTRACE((tfp, "HTTP: 'Location:' is zero-length!\n")); HTAlert(REDIRECTION_WITH_BAD_LOCATION); } CTRACE((tfp, "HTTP: Failed to pick up location.\n")); if (me->location) { FREE(me->location); } else { HTAlert(REDIRECTION_WITH_NO_LOCATION); } } } CTRACE((tfp, "...pumpData finished reading header\n")); if (me->head_only) { /* We are done! - kw */ me->state = MIME_IGNORE; } else { if (me->no_streamstack) { me->target = me->sink; } else { if (!me->compression_encoding) { CTRACE((tfp, "HTMIME: MIME Content-Type is '%s', converting to '%s'\n", HTAtom_name(me->format), HTAtom_name(me->targetRep))); } else { /* * Change the format to that for "www/compressed" and set up a * stream to deal with it. - FM */ CTRACE((tfp, "HTMIME: MIME Content-Type is '%s',\n", HTAtom_name(me->format))); me->format = HTAtom_for("www/compressed"); CTRACE((tfp, " Treating as '%s'. Converting to '%s'\n", HTAtom_name(me->format), HTAtom_name(me->targetRep))); FREE(me->compression_encoding); } me->target = HTStreamStack(me->format, me->targetRep, me->sink, me->anchor); if (!me->target) { CTRACE((tfp, "HTMIME: Can't translate! ** \n")); me->target = me->sink; /* Cheat */ } } if (me->target) { me->targetClass = *me->target->isa; /* * Pump rest of data right through, according to the transfer encoding. */ me->state = (me->chunked_encoding ? MIME_CHUNKED : MIME_TRANSPARENT); } else { me->state = MIME_IGNORE; /* What else to do? */ } if (me->refresh_url != NULL && !content_is_compressed(me)) { char *url = NULL; char *num = NULL; char *txt = NULL; const char *base = ""; /* FIXME: refresh_url may be relative to doc */ LYParseRefreshURL(me->refresh_url, &num, &url); if (url != NULL && me->format == WWW_HTML) { CTRACE((tfp, "Formatting refresh-url as first line of result\n")); HTSprintf0(&txt, gettext("Refresh: ")); HTSprintf(&txt, gettext("%s seconds "), num); dequote(url); HTSprintf(&txt, "%s
", base, url, url); CTRACE((tfp, "URL %s%s\n", base, url)); (me->isa->put_string) (me, txt); free(txt); } FREE(num); FREE(url); } } CTRACE((tfp, "...end of pumpData, copied %" PRI_off_t " vs %" PRI_off_t "\n", CAST_off_t (me->anchor->actual_length), CAST_off_t (me->anchor->content_length))); me->anchor->actual_length = 0; return HT_OK; } static int dispatchField(HTStream *me) { int i, j; char *cp; *me->value_pointer = '\0'; cp = me->value_pointer; while ((cp > me->value) && *(--cp) == ' ') /* S/390 -- gil -- 0146 */ /* * Trim trailing spaces. */ *cp = '\0'; switch (me->field) { case miACCEPT_RANGES: HTMIME_TrimDoubleQuotes(me->value); CTRACE((tfp, "HTMIME: PICKED UP Accept-Ranges: '%s'\n", me->value)); break; case miAGE: HTMIME_TrimDoubleQuotes(me->value); CTRACE((tfp, "HTMIME: PICKED UP Age: '%s'\n", me->value)); break; case miALLOW: HTMIME_TrimDoubleQuotes(me->value); CTRACE((tfp, "HTMIME: PICKED UP Allow: '%s'\n", me->value)); break; case miALTERNATES: HTMIME_TrimDoubleQuotes(me->value); CTRACE((tfp, "HTMIME: PICKED UP Alternates: '%s'\n", me->value)); break; case miCACHE_CONTROL: HTMIME_TrimDoubleQuotes(me->value); CTRACE((tfp, "HTMIME: PICKED UP Cache-Control: '%s'\n", me->value)); if (me->value[0] == '\0') break; /* * Convert to lowercase and indicate in anchor. - FM */ LYLowerCase(me->value); StrAllocCopy(me->anchor->cache_control, me->value); /* * Check whether to set no_cache for the anchor. - FM */ { char *cp1, *cp0 = me->value; while ((cp1 = strstr(cp0, "no-cache")) != NULL) { cp1 += 8; while (*cp1 != '\0' && WHITE(*cp1)) cp1++; if (*cp1 == '\0' || *cp1 == ';') { me->anchor->no_cache = TRUE; break; } cp0 = cp1; } if (me->anchor->no_cache == TRUE) break; cp0 = me->value; while ((cp1 = strstr(cp0, "max-age")) != NULL) { cp1 += 7; while (*cp1 != '\0' && WHITE(*cp1)) cp1++; if (*cp1 == '=') { cp1++; while (*cp1 != '\0' && WHITE(*cp1)) cp1++; if (isdigit(UCH(*cp1))) { cp0 = cp1; while (isdigit(UCH(*cp1))) cp1++; if (*cp0 == '0' && cp1 == (cp0 + 1)) { me->anchor->no_cache = TRUE; break; } } } cp0 = cp1; } } break; case miCOOKIE: HTMIME_TrimDoubleQuotes(me->value); CTRACE((tfp, "HTMIME: PICKED UP Cookie: '%s'\n", me->value)); break; case miCONNECTION: HTMIME_TrimDoubleQuotes(me->value); CTRACE((tfp, "HTMIME: PICKED UP Connection: '%s'\n", me->value)); break; case miCONTENT_BASE: HTMIME_TrimDoubleQuotes(me->value); CTRACE((tfp, "HTMIME: PICKED UP Content-Base: '%s'\n", me->value)); if (me->value[0] == '\0') break; /* * Indicate in anchor. - FM */ StrAllocCopy(me->anchor->content_base, me->value); break; case miCONTENT_DISPOSITION: HTMIME_TrimDoubleQuotes(me->value); CTRACE((tfp, "HTMIME: PICKED UP Content-Disposition: '%s'\n", me->value)); if (me->value[0] == '\0') break; /* * Indicate in anchor. - FM */ StrAllocCopy(me->anchor->content_disposition, me->value); /* * It's not clear yet from existing RFCs and IDs whether we should be * looking for file;, attachment;, and/or inline; before the * filename=value, so we'll just search for "filename" followed by '=' * and just hope we get the intended value. It is purely a suggested * name, anyway. - FM */ cp = me->anchor->content_disposition; while (*cp != '\0' && strncasecomp(cp, "filename", 8)) cp++; if (*cp == '\0') break; cp += 8; while ((*cp != '\0') && (WHITE(*cp) || *cp == '=')) cp++; if (*cp == '\0') break; while (*cp != '\0' && WHITE(*cp)) cp++; if (*cp == '\0') break; StrAllocCopy(me->anchor->SugFname, cp); if (*me->anchor->SugFname == '"') { if ((cp = StrChr((me->anchor->SugFname + 1), '"')) != NULL) { *(cp + 1) = '\0'; HTMIME_TrimDoubleQuotes(me->anchor->SugFname); } else { FREE(me->anchor->SugFname); break; } } cp = me->anchor->SugFname; while (*cp != '\0' && !WHITE(*cp)) cp++; *cp = '\0'; if (*me->anchor->SugFname == '\0') FREE(me->anchor->SugFname); break; case miCONTENT_ENCODING: HTMIME_TrimDoubleQuotes(me->value); CTRACE((tfp, "HTMIME: PICKED UP Content-Encoding: '%s'\n", me->value)); if (me->value[0] == '\0' || !strcasecomp(me->value, "identity")) break; /* * Convert to lowercase and indicate in anchor. - FM */ LYLowerCase(me->value); StrAllocCopy(me->anchor->content_encoding, me->value); FREE(me->compression_encoding); if (content_is_compressed(me)) { /* * Save it to use as a flag for setting up a "www/compressed" * target. - FM */ StrAllocCopy(me->compression_encoding, me->value); } else { /* * Some server indicated "8bit", "7bit" or "binary" * inappropriately. We'll ignore it. - FM */ CTRACE((tfp, " Ignoring it!\n")); } break; case miCONTENT_FEATURES: HTMIME_TrimDoubleQuotes(me->value); CTRACE((tfp, "HTMIME: PICKED UP Content-Features: '%s'\n", me->value)); break; case miCONTENT_LANGUAGE: HTMIME_TrimDoubleQuotes(me->value); CTRACE((tfp, "HTMIME: PICKED UP Content-Language: '%s'\n", me->value)); if (me->value[0] == '\0') break; /* * Convert to lowercase and indicate in anchor. - FM */ LYLowerCase(me->value); StrAllocCopy(me->anchor->content_language, me->value); break; case miCONTENT_LENGTH: HTMIME_TrimDoubleQuotes(me->value); CTRACE((tfp, "HTMIME: PICKED UP Content-Length: '%s'\n", me->value)); if (me->value[0] == '\0') break; /* * Convert to integer and indicate in anchor. - FM */ me->anchor->content_length = LYatoll(me->value); if (me->anchor->content_length < 0) me->anchor->content_length = 0; CTRACE((tfp, " Converted to integer: '%" PRI_off_t "'\n", CAST_off_t (me->anchor->content_length))); break; case miCONTENT_LOCATION: HTMIME_TrimDoubleQuotes(me->value); CTRACE((tfp, "HTMIME: PICKED UP Content-Location: '%s'\n", me->value)); if (me->value[0] == '\0') break; /* * Indicate in anchor. - FM */ StrAllocCopy(me->anchor->content_location, me->value); break; case miCONTENT_MD5: HTMIME_TrimDoubleQuotes(me->value); CTRACE((tfp, "HTMIME: PICKED UP Content-MD5: '%s'\n", me->value)); if (me->value[0] == '\0') break; /* * Indicate in anchor. - FM */ StrAllocCopy(me->anchor->content_md5, me->value); break; case miCONTENT_RANGE: HTMIME_TrimDoubleQuotes(me->value); CTRACE((tfp, "HTMIME: PICKED UP Content-Range: '%s'\n", me->value)); break; case miCONTENT_TRANSFER_ENCODING: HTMIME_TrimDoubleQuotes(me->value); CTRACE((tfp, "HTMIME: PICKED UP Content-Transfer-Encoding: '%s'\n", me->value)); if (me->value[0] == '\0') break; /* * Force the Content-Transfer-Encoding value to all lower case. - FM */ LYLowerCase(me->value); me->c_t_encoding = HTAtom_for(me->value); break; case miCONTENT_TYPE: HTMIME_TrimDoubleQuotes(me->value); CTRACE((tfp, "HTMIME: PICKED UP Content-Type: '%s'\n", me->value)); if (me->value[0] == '\0') break; /* * Force the Content-Type value to all lower case and strip spaces and * double-quotes. - FM */ for (i = 0, j = 0; me->value[i]; i++) { if (me->value[i] != ' ' && me->value[i] != '"') { me->value[j++] = (char) TOLOWER(me->value[i]); } } me->value[j] = '\0'; me->format = HTAtom_for(me->value); StrAllocCopy(me->anchor->content_type_params, me->value); break; case miDATE: HTMIME_TrimDoubleQuotes(me->value); CTRACE((tfp, "HTMIME: PICKED UP Date: '%s'\n", me->value)); if (me->value[0] == '\0') break; /* * Indicate in anchor. - FM */ StrAllocCopy(me->anchor->date, me->value); break; case miETAG: /* Do not trim double quotes: an entity tag consists of an opaque * quoted string, possibly prefixed by a weakness indicator. */ CTRACE((tfp, "HTMIME: PICKED UP ETag: %s\n", me->value)); if (me->value[0] == '\0') break; /* * Indicate in anchor. - FM */ StrAllocCopy(me->anchor->ETag, me->value); break; case miEXPIRES: HTMIME_TrimDoubleQuotes(me->value); CTRACE((tfp, "HTMIME: PICKED UP Expires: '%s'\n", me->value)); if (me->value[0] == '\0') break; /* * Indicate in anchor. - FM */ StrAllocCopy(me->anchor->expires, me->value); break; case miKEEP_ALIVE: HTMIME_TrimDoubleQuotes(me->value); CTRACE((tfp, "HTMIME: PICKED UP Keep-Alive: '%s'\n", me->value)); break; case miLAST_MODIFIED: HTMIME_TrimDoubleQuotes(me->value); CTRACE((tfp, "HTMIME: PICKED UP Last-Modified: '%s'\n", me->value)); if (me->value[0] == '\0') break; /* * Indicate in anchor. - FM */ StrAllocCopy(me->anchor->last_modified, me->value); break; case miLINK: HTMIME_TrimDoubleQuotes(me->value); CTRACE((tfp, "HTMIME: PICKED UP Link: '%s'\n", me->value)); break; case miLOCATION: HTMIME_TrimDoubleQuotes(me->value); CTRACE((tfp, "HTMIME: PICKED UP Location: '%s'\n", me->value)); if (me->pickup_redirection && !me->location) { StrAllocCopy(me->location, me->value); } else { CTRACE((tfp, "HTMIME: *** Ignoring Location!\n")); } break; case miPRAGMA: HTMIME_TrimDoubleQuotes(me->value); CTRACE((tfp, "HTMIME: PICKED UP Pragma: '%s'\n", me->value)); if (me->value[0] == '\0') break; /* * Check whether to set no_cache for the anchor. - FM */ if (!strcmp(me->value, "no-cache")) me->anchor->no_cache = TRUE; break; case miPROXY_AUTHENTICATE: HTMIME_TrimDoubleQuotes(me->value); CTRACE((tfp, "HTMIME: PICKED UP Proxy-Authenticate: '%s'\n", me->value)); break; case miPUBLIC: HTMIME_TrimDoubleQuotes(me->value); CTRACE((tfp, "HTMIME: PICKED UP Public: '%s'\n", me->value)); break; case miREFRESH: /* nonstandard: Netscape */ HTMIME_TrimDoubleQuotes(me->value); CTRACE((tfp, "HTMIME: PICKED UP Refresh: '%s'\n", me->value)); StrAllocCopy(me->refresh_url, me->value); break; case miRETRY_AFTER: HTMIME_TrimDoubleQuotes(me->value); CTRACE((tfp, "HTMIME: PICKED UP Retry-After: '%s'\n", me->value)); break; case miSAFE: HTMIME_TrimDoubleQuotes(me->value); CTRACE((tfp, "HTMIME: PICKED UP Safe: '%s'\n", me->value)); if (me->value[0] == '\0') break; /* * Indicate in anchor if "YES" or "TRUE". - FM */ if (!strcasecomp(me->value, "YES") || !strcasecomp(me->value, "TRUE")) { me->anchor->safe = TRUE; } else if (!strcasecomp(me->value, "NO") || !strcasecomp(me->value, "FALSE")) { /* * If server explicitly tells us that it has changed its mind, * reset flag in anchor. - kw */ me->anchor->safe = FALSE; } break; case miSERVER: HTMIME_TrimDoubleQuotes(me->value); CTRACE((tfp, "HTMIME: PICKED UP Server: '%s'\n", me->value)); if (me->value[0] == '\0') break; /* * Indicate in anchor. - FM */ StrAllocCopy(me->anchor->server, me->value); break; case miSET_COOKIE1: HTMIME_TrimDoubleQuotes(me->value); CTRACE((tfp, "HTMIME: PICKED UP Set-Cookie: '%s'\n", me->value)); if (me->set_cookie == NULL) { StrAllocCopy(me->set_cookie, me->value); } else { StrAllocCat(me->set_cookie, ", "); StrAllocCat(me->set_cookie, me->value); } break; case miSET_COOKIE2: HTMIME_TrimDoubleQuotes(me->value); CTRACE((tfp, "HTMIME: PICKED UP Set-Cookie2: '%s'\n", me->value)); if (me->set_cookie2 == NULL) { StrAllocCopy(me->set_cookie2, me->value); } else { StrAllocCat(me->set_cookie2, ", "); StrAllocCat(me->set_cookie2, me->value); } break; case miTITLE: HTMIME_TrimDoubleQuotes(me->value); CTRACE((tfp, "HTMIME: PICKED UP Title: '%s'\n", me->value)); break; case miTRANSFER_ENCODING: HTMIME_TrimDoubleQuotes(me->value); CTRACE((tfp, "HTMIME: PICKED UP Transfer-Encoding: '%s'\n", me->value)); if (!strcmp(me->value, "chunked")) me->chunked_encoding = YES; break; case miUPGRADE: HTMIME_TrimDoubleQuotes(me->value); CTRACE((tfp, "HTMIME: PICKED UP Upgrade: '%s'\n", me->value)); break; case miURI: HTMIME_TrimDoubleQuotes(me->value); CTRACE((tfp, "HTMIME: PICKED UP URI: '%s'\n", me->value)); break; case miVARY: HTMIME_TrimDoubleQuotes(me->value); CTRACE((tfp, "HTMIME: PICKED UP Vary: '%s'\n", me->value)); break; case miVIA: HTMIME_TrimDoubleQuotes(me->value); CTRACE((tfp, "HTMIME: PICKED UP Via: '%s'\n", me->value)); break; case miWARNING: HTMIME_TrimDoubleQuotes(me->value); CTRACE((tfp, "HTMIME: PICKED UP Warning: '%s'\n", me->value)); break; case miWWW_AUTHENTICATE: HTMIME_TrimDoubleQuotes(me->value); CTRACE((tfp, "HTMIME: PICKED UP WWW-Authenticate: '%s'\n", me->value)); break; default: /* Should never get here */ return HT_ERROR; } return HT_OK; } /*_________________________________________________________________________ * * A C T I O N R O U T I N E S */ /* Character handling * ------------------ * * This is a FSM parser. It ignores field names it does not understand. * Folded header fields are recognized. Lines without a fieldname at * the beginning (that are not folded continuation lines) are ignored * as unknown field names. Fields with empty values are not picked up. */ static void HTMIME_put_character(HTStream *me, int c) { if (me->anchor->inHEAD) { me->anchor->header_length++; } switch (me->state) { begin_transparent: case MIME_TRANSPARENT: me->anchor->actual_length += 1; (me->targetClass.put_character) (me->target, c); return; /* RFC-2616 describes chunked transfer coding */ case mcCHUNKED_DATA: (*me->targetClass.put_character) (me->target, c); me->chunked_size--; if (me->chunked_size <= 0) me->state = mcCHUNKED_DATA_CR; return; case mcCHUNKED_DATA_CR: me->state = mcCHUNKED_DATA_LF; if (c == CR) { return; } /* FALLTHRU */ case mcCHUNKED_DATA_LF: me->state = MIME_CHUNKED; if (c == LF) { return; } CTRACE((tfp, "HTIME_put_character expected LF in chunked data\n")); me->state = MIME_TRANSPARENT; goto begin_transparent; /* FALLTHRU */ begin_chunked: case MIME_CHUNKED: me->chunked_size = 0; me->state = mcCHUNKED_COUNT_DIGIT; /* FALLTHRU */ case mcCHUNKED_COUNT_DIGIT: if (isxdigit(UCH(c))) { me->chunked_size <<= 4; if (isdigit(UCH(c))) me->chunked_size += UCH(c) - '0'; else me->chunked_size += TOUPPER(UCH(c)) - 'A' + 10; return; } if (c == ';') me->state = mcCHUNKED_EXTENSION; /* FALLTHRU */ case mcCHUNKED_EXTENSION: if (c != CR && c != LF) { return; } me->state = mcCHUNKED_COUNT_CR; /* FALLTHRU */ case mcCHUNKED_COUNT_CR: me->state = mcCHUNKED_COUNT_LF; if (c == CR) { return; } /* FALLTHRU */ case mcCHUNKED_COUNT_LF: me->state = ((me->chunked_size != 0) ? mcCHUNKED_DATA : MIME_CHUNKED); if (c == LF) { return; } goto begin_chunked; default: break; } /* * This slightly simple conversion just strips CR and turns LF to newline. * On unix LF is \n but on Mac \n is CR for example. See NetToText for an * implementation which preserves single CR or LF. */ if (me->net_ascii) { /* * This is evidence that at one time, this code supported * local character sets other than ASCII. But there is so much * code in HTTP.c that depends on line_buffer's having been * translated to local character set that I needed to put the * FROMASCII translation there, leaving this translation purely * destructive. -- gil */ /* S/390 -- gil -- 0118 */ #ifndef NOT_ASCII c = FROMASCII(c); #endif /* NOT_ASCII */ if (c == CR) return; else if (c == LF) c = '\n'; } switch (me->state) { case MIME_IGNORE: return; case MIME_TRANSPARENT: /* Not reached see above */ case MIME_CHUNKED: case mcCHUNKED_COUNT_DIGIT: case mcCHUNKED_COUNT_CR: case mcCHUNKED_COUNT_LF: case mcCHUNKED_EXTENSION: case mcCHUNKED_DATA: case mcCHUNKED_DATA_CR: case mcCHUNKED_DATA_LF: return; case MIME_NET_ASCII: (*me->targetClass.put_character) (me->target, c); /* MUST BE FAST */ return; case miNEWLINE: if (c != '\n' && WHITE(c)) { /* Folded line */ me->state = me->fold_state; /* pop state before newline */ if (me->state == miGET_VALUE && me->value_pointer && me->value_pointer != me->value && !WHITE(*(me->value_pointer - 1))) { c = ' '; goto GET_VALUE; /* will add space to value if it fits - kw */ } break; } else if (me->fold_state == miGET_VALUE) { /* Got a field, and now we know it's complete - so * act on it. - kw */ dispatchField(me); } /* FALLTHRU */ case miBEGINNING_OF_LINE: me->net_ascii = YES; switch (c) { case 'a': case 'A': me->state = miA; CTRACE((tfp, "HTMIME: Got 'A' at beginning of line, state now A\n")); break; case 'c': case 'C': me->state = miC; CTRACE((tfp, "HTMIME: Got 'C' at beginning of line, state now C\n")); break; case 'd': case 'D': me->check_pointer = "ate:"; me->if_ok = miDATE; me->state = miCHECK; CTRACE((tfp, "HTMIME: Got 'D' at beginning of line, checking for 'ate:'\n")); break; case 'e': case 'E': me->state = miE; CTRACE((tfp, "HTMIME: Got 'E' at beginning of line, state now E\n")); break; case 'k': case 'K': me->check_pointer = "eep-alive:"; me->if_ok = miKEEP_ALIVE; me->state = miCHECK; CTRACE((tfp, "HTMIME: Got 'K' at beginning of line, checking for 'eep-alive:'\n")); break; case 'l': case 'L': me->state = miL; CTRACE((tfp, "HTMIME: Got 'L' at beginning of line, state now L\n")); break; case 'p': case 'P': me->state = miP; CTRACE((tfp, "HTMIME: Got 'P' at beginning of line, state now P\n")); break; case 'r': case 'R': me->state = miR; CTRACE((tfp, "HTMIME: Got 'R' at beginning of line, state now R\n")); break; case 's': case 'S': me->state = miS; CTRACE((tfp, "HTMIME: Got 'S' at beginning of line, state now S\n")); break; case 't': case 'T': me->state = miT; CTRACE((tfp, "HTMIME: Got 'T' at beginning of line, state now T\n")); break; case 'u': case 'U': me->state = miU; CTRACE((tfp, "HTMIME: Got 'U' at beginning of line, state now U\n")); break; case 'v': case 'V': me->state = miV; CTRACE((tfp, "HTMIME: Got 'V' at beginning of line, state now V\n")); break; case 'w': case 'W': me->state = miW; CTRACE((tfp, "HTMIME: Got 'W' at beginning of line, state now W\n")); break; case '\n': /* Blank line: End of Header! */ { me->anchor->inHEAD = FALSE; CTRACE((tfp, "HTMIME length %" PRI_off_t "\n", CAST_off_t (me->anchor->header_length))); me->net_ascii = NO; pumpData(me); } break; default: goto bad_field_name; } /* switch on character */ break; case miA: /* Check for 'c','g' or 'l' */ switch (c) { case 'c': case 'C': me->check_pointer = "cept-ranges:"; me->if_ok = miACCEPT_RANGES; me->state = miCHECK; CTRACE((tfp, "HTMIME: Was A, found C, checking for 'cept-ranges:'\n")); break; case 'g': case 'G': me->check_pointer = "e:"; me->if_ok = miAGE; me->state = miCHECK; CTRACE((tfp, "HTMIME: Was A, found G, checking for 'e:'\n")); break; case 'l': case 'L': me->state = miAL; CTRACE((tfp, "HTMIME: Was A, found L, state now AL'\n")); break; default: CTRACE((tfp, "HTMIME: Bad character `%c' found where `%s' expected\n", c, "'g' or 'l'")); goto bad_field_name; } /* switch on character */ break; case miAL: /* Check for 'l' or 't' */ switch (c) { case 'l': case 'L': me->check_pointer = "ow:"; me->if_ok = miALLOW; me->state = miCHECK; CTRACE((tfp, "HTMIME: Was AL, found L, checking for 'ow:'\n")); break; case 't': case 'T': me->check_pointer = "ernates:"; me->if_ok = miALTERNATES; me->state = miCHECK; CTRACE((tfp, "HTMIME: Was AL, found T, checking for 'ernates:'\n")); break; default: CTRACE((tfp, "HTMIME: Bad character `%c' found where `%s' expected\n", c, "'l' or 't'")); goto bad_field_name; } /* switch on character */ break; case miC: /* Check for 'a' or 'o' */ switch (c) { case 'a': case 'A': me->check_pointer = "che-control:"; me->if_ok = miCACHE_CONTROL; me->state = miCHECK; CTRACE((tfp, "HTMIME: Was C, found A, checking for 'che-control:'\n")); break; case 'o': case 'O': me->state = miCO; CTRACE((tfp, "HTMIME: Was C, found O, state now CO'\n")); break; default: CTRACE((tfp, "HTMIME: Bad character `%c' found where `%s' expected\n", c, "'a' or 'o'")); goto bad_field_name; } /* switch on character */ break; case miCO: /* Check for 'n' or 'o' */ switch (c) { case 'n': case 'N': me->state = miCON; CTRACE((tfp, "HTMIME: Was CO, found N, state now CON\n")); break; case 'o': case 'O': me->check_pointer = "kie:"; me->if_ok = miCOOKIE; me->state = miCHECK; CTRACE((tfp, "HTMIME: Was CO, found O, checking for 'kie:'\n")); break; default: CTRACE((tfp, "HTMIME: Bad character `%c' found where `%s' expected\n", c, "'n' or 'o'")); goto bad_field_name; } /* switch on character */ break; case miCON: /* Check for 'n' or 't' */ switch (c) { case 'n': case 'N': me->check_pointer = "ection:"; me->if_ok = miCONNECTION; me->state = miCHECK; CTRACE((tfp, "HTMIME: Was CON, found N, checking for 'ection:'\n")); break; case 't': case 'T': me->check_pointer = "ent-"; me->if_ok = miCONTENT_; me->state = miCHECK; CTRACE((tfp, "HTMIME: Was CON, found T, checking for 'ent-'\n")); break; default: CTRACE((tfp, "HTMIME: Bad character `%c' found where `%s' expected\n", c, "'n' or 't'")); goto bad_field_name; } /* switch on character */ break; case miE: /* Check for 't' or 'x' */ switch (c) { case 't': case 'T': me->check_pointer = "ag:"; me->if_ok = miETAG; me->state = miCHECK; CTRACE((tfp, "HTMIME: Was E, found T, checking for 'ag:'\n")); break; case 'x': case 'X': me->check_pointer = "pires:"; me->if_ok = miEXPIRES; me->state = miCHECK; CTRACE((tfp, "HTMIME: Was E, found X, checking for 'pires:'\n")); break; default: CTRACE((tfp, "HTMIME: Bad character `%c' found where `%s' expected\n", c, "'t' or 'x'")); goto bad_field_name; } /* switch on character */ break; case miL: /* Check for 'a', 'i' or 'o' */ switch (c) { case 'a': case 'A': me->check_pointer = "st-modified:"; me->if_ok = miLAST_MODIFIED; me->state = miCHECK; CTRACE((tfp, "HTMIME: Was L, found A, checking for 'st-modified:'\n")); break; case 'i': case 'I': me->check_pointer = "nk:"; me->if_ok = miLINK; me->state = miCHECK; CTRACE((tfp, "HTMIME: Was L, found I, checking for 'nk:'\n")); break; case 'o': case 'O': me->check_pointer = "cation:"; me->if_ok = miLOCATION; me->state = miCHECK; CTRACE((tfp, "HTMIME: Was L, found O, checking for 'cation:'\n")); break; default: CTRACE((tfp, "HTMIME: Bad character `%c' found where `%s' expected\n", c, "'a', 'i' or 'o'")); goto bad_field_name; } /* switch on character */ break; case miP: /* Check for 'r' or 'u' */ switch (c) { case 'r': case 'R': me->state = miPR; CTRACE((tfp, "HTMIME: Was P, found R, state now PR'\n")); break; case 'u': case 'U': me->check_pointer = "blic:"; me->if_ok = miPUBLIC; me->state = miCHECK; CTRACE((tfp, "HTMIME: Was P, found U, checking for 'blic:'\n")); break; default: CTRACE((tfp, "HTMIME: Bad character `%c' found where `%s' expected\n", c, "'r' or 'u'")); goto bad_field_name; } /* switch on character */ break; case miPR: /* Check for 'a' or 'o' */ switch (c) { case 'a': case 'A': me->check_pointer = "gma:"; me->if_ok = miPRAGMA; me->state = miCHECK; CTRACE((tfp, "HTMIME: Was PR, found A, checking for 'gma'\n")); break; case 'o': case 'O': me->check_pointer = "xy-authenticate:"; me->if_ok = miPROXY_AUTHENTICATE; me->state = miCHECK; CTRACE((tfp, "HTMIME: Was PR, found O, checking for 'xy-authenticate'\n")); break; default: CTRACE((tfp, "HTMIME: Bad character `%c' found where `%s' expected\n", c, "'a' or 'o'")); goto bad_field_name; } /* switch on character */ break; case miR: /* Check for 'e' */ switch (c) { case 'e': case 'E': me->state = miRE; CTRACE((tfp, "HTMIME: Was R, found E\n")); break; default: CTRACE((tfp, "HTMIME: Bad character `%c' found where `%s' expected\n", c, "'e'")); goto bad_field_name; } /* switch on character */ break; case miRE: /* Check for 'a' or 'o' */ switch (c) { case 'f': case 'F': /* nonstandard: Netscape */ me->check_pointer = "resh:"; me->if_ok = miREFRESH; me->state = miCHECK; CTRACE((tfp, "HTMIME: Was RE, found F, checking for '%s'\n", me->check_pointer)); break; case 't': case 'T': me->check_pointer = "ry-after:"; me->if_ok = miRETRY_AFTER; me->state = miCHECK; CTRACE((tfp, "HTMIME: Was RE, found T, checking for '%s'\n", me->check_pointer)); break; default: CTRACE((tfp, "HTMIME: Bad character `%c' found where `%s' expected\n", c, "'f' or 't'")); goto bad_field_name; } /* switch on character */ break; case miS: /* Check for 'a' or 'e' */ switch (c) { case 'a': case 'A': me->check_pointer = "fe:"; me->if_ok = miSAFE; me->state = miCHECK; CTRACE((tfp, "HTMIME: Was S, found A, checking for 'fe:'\n")); break; case 'e': case 'E': me->state = miSE; CTRACE((tfp, "HTMIME: Was S, found E, state now SE'\n")); break; default: CTRACE((tfp, "HTMIME: Bad character `%c' found where `%s' expected\n", c, "'a' or 'e'")); goto bad_field_name; } /* switch on character */ break; case miSE: /* Check for 'r' or 't' */ switch (c) { case 'r': case 'R': me->check_pointer = "ver:"; me->if_ok = miSERVER; me->state = miCHECK; CTRACE((tfp, "HTMIME: Was SE, found R, checking for 'ver'\n")); break; case 't': case 'T': me->check_pointer = "-cookie"; me->if_ok = miSET_COOKIE; me->state = miCHECK; CTRACE((tfp, "HTMIME: Was SE, found T, checking for '-cookie'\n")); break; default: CTRACE((tfp, "HTMIME: Bad character `%c' found where `%s' expected\n", c, "'r' or 't'")); goto bad_field_name; } /* switch on character */ break; case miSET_COOKIE: /* Check for ':' or '2' */ switch (c) { case ':': me->field = miSET_COOKIE1; /* remember it */ me->state = miSKIP_GET_VALUE; CTRACE((tfp, "HTMIME: Was SET_COOKIE, found :, processing\n")); break; case '2': me->check_pointer = ":"; me->if_ok = miSET_COOKIE2; me->state = miCHECK; CTRACE((tfp, "HTMIME: Was SET_COOKIE, found 2, checking for ':'\n")); break; default: CTRACE((tfp, "HTMIME: Bad character `%c' found where `%s' expected\n", c, "':' or '2'")); goto bad_field_name; } /* switch on character */ break; case miT: /* Check for 'i' or 'r' */ switch (c) { case 'i': case 'I': me->check_pointer = "tle:"; me->if_ok = miTITLE; me->state = miCHECK; CTRACE((tfp, "HTMIME: Was T, found I, checking for 'tle:'\n")); break; case 'r': case 'R': me->check_pointer = "ansfer-encoding:"; me->if_ok = miTRANSFER_ENCODING; me->state = miCHECK; CTRACE((tfp, "HTMIME: Was T, found R, checking for 'ansfer-encoding'\n")); break; default: CTRACE((tfp, "HTMIME: Bad character `%c' found where `%s' expected\n", c, "'i' or 'r'")); goto bad_field_name; } /* switch on character */ break; case miU: /* Check for 'p' or 'r' */ switch (c) { case 'p': case 'P': me->check_pointer = "grade:"; me->if_ok = miUPGRADE; me->state = miCHECK; CTRACE((tfp, "HTMIME: Was U, found P, checking for 'grade:'\n")); break; case 'r': case 'R': me->check_pointer = "i:"; me->if_ok = miURI; me->state = miCHECK; CTRACE((tfp, "HTMIME: Was U, found R, checking for 'i:'\n")); break; default: CTRACE((tfp, "HTMIME: Bad character `%c' found where `%s' expected\n", c, "'p' or 'r'")); goto bad_field_name; } /* switch on character */ break; case miV: /* Check for 'a' or 'i' */ switch (c) { case 'a': case 'A': me->check_pointer = "ry:"; me->if_ok = miVARY; me->state = miCHECK; CTRACE((tfp, "HTMIME: Was V, found A, checking for 'ry:'\n")); break; case 'i': case 'I': me->check_pointer = "a:"; me->if_ok = miVIA; me->state = miCHECK; CTRACE((tfp, "HTMIME: Was V, found I, checking for 'a:'\n")); break; default: CTRACE((tfp, "HTMIME: Bad character `%c' found where `%s' expected\n", c, "'a' or 'i'")); goto bad_field_name; } /* switch on character */ break; case miW: /* Check for 'a' or 'w' */ switch (c) { case 'a': case 'A': me->check_pointer = "rning:"; me->if_ok = miWARNING; me->state = miCHECK; CTRACE((tfp, "HTMIME: Was W, found A, checking for 'rning:'\n")); break; case 'w': case 'W': me->check_pointer = "w-authenticate:"; me->if_ok = miWWW_AUTHENTICATE; me->state = miCHECK; CTRACE((tfp, "HTMIME: Was W, found W, checking for 'w-authenticate:'\n")); break; default: CTRACE((tfp, "HTMIME: Bad character `%c' found where `%s' expected\n", c, "'a' or 'w'")); goto bad_field_name; } /* switch on character */ break; case miCHECK: /* Check against string */ if (TOLOWER(c) == *(me->check_pointer)++) { if (!*me->check_pointer) me->state = me->if_ok; } else { /* Error */ CTRACE((tfp, "HTMIME: Bad character `%c' found where `%s' expected\n", c, me->check_pointer - 1)); goto bad_field_name; } break; case miCONTENT_: CTRACE((tfp, "HTMIME: in case CONTENT_\n")); switch (c) { case 'b': case 'B': me->check_pointer = "ase:"; me->if_ok = miCONTENT_BASE; me->state = miCHECK; CTRACE((tfp, "HTMIME: Was CONTENT_, found B, checking for 'ase:'\n")); break; case 'd': case 'D': me->check_pointer = "isposition:"; me->if_ok = miCONTENT_DISPOSITION; me->state = miCHECK; CTRACE((tfp, "HTMIME: Was CONTENT_, found D, checking for 'isposition:'\n")); break; case 'e': case 'E': me->check_pointer = "ncoding:"; me->if_ok = miCONTENT_ENCODING; me->state = miCHECK; CTRACE((tfp, "HTMIME: Was CONTENT_, found E, checking for 'ncoding:'\n")); break; case 'f': case 'F': me->check_pointer = "eatures:"; me->if_ok = miCONTENT_FEATURES; me->state = miCHECK; CTRACE((tfp, "HTMIME: Was CONTENT_, found F, checking for 'eatures:'\n")); break; case 'l': case 'L': me->state = miCONTENT_L; CTRACE((tfp, "HTMIME: Was CONTENT_, found L, state now CONTENT_L\n")); break; case 'm': case 'M': me->check_pointer = "d5:"; me->if_ok = miCONTENT_MD5; me->state = miCHECK; CTRACE((tfp, "HTMIME: Was CONTENT_, found M, checking for 'd5:'\n")); break; case 'r': case 'R': me->check_pointer = "ange:"; me->if_ok = miCONTENT_RANGE; me->state = miCHECK; CTRACE((tfp, "HTMIME: Was CONTENT_, found R, checking for 'ange:'\n")); break; case 't': case 'T': me->state = miCONTENT_T; CTRACE((tfp, "HTMIME: Was CONTENT_, found T, state now CONTENT_T\n")); break; default: CTRACE((tfp, "HTMIME: Was CONTENT_, found nothing; bleah\n")); goto bad_field_name; } /* switch on character */ break; case miCONTENT_L: CTRACE((tfp, "HTMIME: in case CONTENT_L\n")); switch (c) { case 'a': case 'A': me->check_pointer = "nguage:"; me->if_ok = miCONTENT_LANGUAGE; me->state = miCHECK; CTRACE((tfp, "HTMIME: Was CONTENT_L, found A, checking for 'nguage:'\n")); break; case 'e': case 'E': me->check_pointer = "ngth:"; me->if_ok = miCONTENT_LENGTH; me->state = miCHECK; CTRACE((tfp, "HTMIME: Was CONTENT_L, found E, checking for 'ngth:'\n")); break; case 'o': case 'O': me->check_pointer = "cation:"; me->if_ok = miCONTENT_LOCATION; me->state = miCHECK; CTRACE((tfp, "HTMIME: Was CONTENT_L, found O, checking for 'cation:'\n")); break; default: CTRACE((tfp, "HTMIME: Was CONTENT_L, found nothing; bleah\n")); goto bad_field_name; } /* switch on character */ break; case miCONTENT_T: CTRACE((tfp, "HTMIME: in case CONTENT_T\n")); switch (c) { case 'r': case 'R': me->check_pointer = "ansfer-encoding:"; me->if_ok = miCONTENT_TRANSFER_ENCODING; me->state = miCHECK; CTRACE((tfp, "HTMIME: Was CONTENT_T, found R, checking for 'ansfer-encoding:'\n")); break; case 'y': case 'Y': me->check_pointer = "pe:"; me->if_ok = miCONTENT_TYPE; me->state = miCHECK; CTRACE((tfp, "HTMIME: Was CONTENT_T, found Y, checking for 'pe:'\n")); break; default: CTRACE((tfp, "HTMIME: Was CONTENT_T, found nothing; bleah\n")); goto bad_field_name; } /* switch on character */ break; case miACCEPT_RANGES: case miAGE: case miALLOW: case miALTERNATES: case miCACHE_CONTROL: case miCOOKIE: case miCONNECTION: case miCONTENT_BASE: case miCONTENT_DISPOSITION: case miCONTENT_ENCODING: case miCONTENT_FEATURES: case miCONTENT_LANGUAGE: case miCONTENT_LENGTH: case miCONTENT_LOCATION: case miCONTENT_MD5: case miCONTENT_RANGE: case miCONTENT_TRANSFER_ENCODING: case miCONTENT_TYPE: case miDATE: case miETAG: case miEXPIRES: case miKEEP_ALIVE: case miLAST_MODIFIED: case miLINK: case miLOCATION: case miPRAGMA: case miPROXY_AUTHENTICATE: case miPUBLIC: case miREFRESH: case miRETRY_AFTER: case miSAFE: case miSERVER: case miSET_COOKIE1: case miSET_COOKIE2: case miTITLE: case miTRANSFER_ENCODING: case miUPGRADE: case miURI: case miVARY: case miVIA: case miWARNING: case miWWW_AUTHENTICATE: me->field = me->state; /* remember it */ me->state = miSKIP_GET_VALUE; /* FALLTHRU */ case miSKIP_GET_VALUE: if (c == '\n') { me->fold_state = me->state; me->state = miNEWLINE; break; } if (WHITE(c)) /* * Skip white space. */ break; me->value_pointer = me->value; me->state = miGET_VALUE; /* Fall through to store first character */ /* FALLTHRU */ case miGET_VALUE: GET_VALUE: if (c != '\n') { /* Not end of line */ if (me->value_pointer < me->value + VALUE_SIZE - 1) { *me->value_pointer++ = (char) c; break; } else { goto value_too_long; } } /* Fall through (if end of line) */ /* FALLTHRU */ case miJUNK_LINE: if (c == '\n') { me->fold_state = me->state; me->state = miNEWLINE; } break; } /* switch on state */ HTChunkPutc(&me->anchor->http_headers, UCH(c)); if (me->state == MIME_TRANSPARENT) { HTChunkTerminate(&me->anchor->http_headers); CTRACE((tfp, "Server Headers (%d bytes):\n%.*s\n", me->anchor->http_headers.size, me->anchor->http_headers.size, me->anchor->http_headers.data)); CTRACE((tfp, "Server Content-Type:%s\n", me->anchor->content_type_params)); } return; value_too_long: CTRACE((tfp, "HTMIME: *** Syntax error. (string too long)\n")); bad_field_name: /* Ignore it */ me->state = miJUNK_LINE; HTChunkPutc(&me->anchor->http_headers, UCH(c)); return; } /* String handling * --------------- * * Strings must be smaller than this buffer size. */ static void HTMIME_put_string(HTStream *me, const char *s) { const char *p; if (me->state == MIME_TRANSPARENT) { /* Optimisation */ (*me->targetClass.put_string) (me->target, s); } else if (me->state != MIME_IGNORE) { CTRACE((tfp, "HTMIME: %s\n", s)); for (p = s; *p; p++) HTMIME_put_character(me, *p); } } /* Buffer write. Buffers can (and should!) be big. * ------------ */ static void HTMIME_write(HTStream *me, const char *s, int l) { const char *p; if (me->state == MIME_TRANSPARENT) { /* Optimisation */ (*me->targetClass.put_block) (me->target, s, l); } else { CTRACE((tfp, "HTMIME: %.*s\n", l, s)); for (p = s; p < s + l; p++) HTMIME_put_character(me, *p); } } /* Free an HTML object * ------------------- * */ static void HTMIME_free(HTStream *me) { if (me) { FREE(me->location); FREE(me->compression_encoding); if (me->target) (*me->targetClass._free) (me->target); FREE(me); } } /* End writing */ static void HTMIME_abort(HTStream *me, HTError e) { if (me) { FREE(me->location); FREE(me->compression_encoding); if (me->target) (*me->targetClass._abort) (me->target, e); FREE(me); } } /* Structured Object Class * ----------------------- */ static const HTStreamClass HTMIME = { "MIMEParser", HTMIME_free, HTMIME_abort, HTMIME_put_character, HTMIME_put_string, HTMIME_write }; /* Subclass-specific Methods * ------------------------- */ HTStream *HTMIMEConvert(HTPresentation *pres, HTParentAnchor *anchor, HTStream *sink) { HTStream *me; CTRACE((tfp, "HTMIMEConvert\n")); me = typecalloc(HTStream); if (me == NULL) outofmem(__FILE__, "HTMIMEConvert"); me->isa = &HTMIME; me->sink = sink; me->anchor = anchor; me->anchor->safe = FALSE; me->anchor->no_cache = FALSE; FREE(me->anchor->cache_control); FREE(me->anchor->SugFname); FREE(me->anchor->charset); HTChunkClear(&me->anchor->http_headers); HTChunkInit(&me->anchor->http_headers, 128); FREE(me->anchor->content_type_params); FREE(me->anchor->content_language); FREE(me->anchor->content_encoding); FREE(me->anchor->content_base); FREE(me->anchor->content_disposition); FREE(me->anchor->content_location); FREE(me->anchor->content_md5); me->anchor->inHEAD = TRUE; me->anchor->header_length = 0; me->anchor->content_length = 0; FREE(me->anchor->date); FREE(me->anchor->expires); FREE(me->anchor->last_modified); FREE(me->anchor->ETag); FREE(me->anchor->server); me->target = NULL; me->state = miBEGINNING_OF_LINE; me->format = HTAtom_for(ContentTypes[LYContentType]); CTRACE((tfp, "default Content-Type is %s\n", HTAtom_name(me->format))); me->targetRep = pres->rep_out; me->boundary = NULL; /* Not set yet */ me->set_cookie = NULL; /* Not set yet */ me->set_cookie2 = NULL; /* Not set yet */ me->refresh_url = NULL; /* Not set yet */ me->c_t_encoding = 0; /* Not set yet */ me->compression_encoding = NULL; /* Not set yet */ me->net_ascii = NO; /* Local character set */ HTAnchor_setUCInfoStage(me->anchor, current_char_set, UCT_STAGE_STRUCTURED, UCT_SETBY_DEFAULT); HTAnchor_setUCInfoStage(me->anchor, current_char_set, UCT_STAGE_HTEXT, UCT_SETBY_DEFAULT); return me; } HTStream *HTNetMIME(HTPresentation *pres, HTParentAnchor *anchor, HTStream *sink) { HTStream *me = HTMIMEConvert(pres, anchor, sink); if (!me) return NULL; me->net_ascii = YES; return me; } HTStream *HTMIMERedirect(HTPresentation *pres, HTParentAnchor *anchor, HTStream *sink) { HTStream *me = HTMIMEConvert(pres, anchor, sink); if (!me) return NULL; me->pickup_redirection = YES; if (me->targetRep == WWW_DEBUG && sink) me->no_streamstack = YES; return me; } /* Japanese header handling functions * ================================== * * K&Rized and added 07-Jun-96 by FM, based on: * //////////////////////////////////////////////////////////////////////// * * ISO-2022-JP handling routines * & * MIME decode routines (quick hack just for ISO-2022-JP) * * Thu Jan 25 10:11:42 JST 1996 * * Copyright (C) 1994, 1995, 1996 * Shuichi Ichikawa (ichikawa@nuee.nagoya-u.ac.jp) * * 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; either versions 2, or (at your option) * any later version. * * This program 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 SKK, see the file COPYING. If not, write to the Free * Software Foundation Inc., 675 Mass Ave, Cambridge, MA 02139, USA. */ /* * MIME decoding routines * * Written by S. Ichikawa, * partially inspired by encdec.c of . * Caller's buffers decode to no longer than the input strings. */ #include /* S/390 -- gil -- 0163 */ static char HTmm64[] = "ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz0123456789+/="; static char HTmmquote[] = "0123456789ABCDEF"; static int HTmmcont = 0; static void HTmmdec_base64(char **t, char *s) { int d, count, j, val; char *buf, *bp, nw[4], *p; if ((buf = typeMallocn(char, strlen(s) * 3 + 1)) == 0) outofmem(__FILE__, "HTmmdec_base64"); for (bp = buf; *s; s += 4) { val = 0; if (s[2] == '=') count = 1; else if (s[3] == '=') count = 2; else count = 3; for (j = 0; j <= count; j++) { if (!(p = StrChr(HTmm64, s[j]))) { FREE(buf); return; } d = (int) (p - HTmm64); d <<= (3 - j) * 6; val += d; } for (j = 2; j >= 0; j--) { nw[j] = (char) (val & 255); val >>= 8; } if (count--) *bp++ = nw[0]; if (count--) *bp++ = nw[1]; if (count) *bp++ = nw[2]; } *bp = '\0'; StrAllocCopy(*t, buf); FREE(buf); } static void HTmmdec_quote(char **t, char *s) { char *buf, cval, *bp, *p; if ((buf = typeMallocn(char, strlen(s) + 1)) == 0) outofmem(__FILE__, "HTmmdec_quote"); for (bp = buf; *s;) { if (*s == '=') { cval = 0; if (s[1] && (p = StrChr(HTmmquote, s[1]))) { cval = (char) (cval + (char) (p - HTmmquote)); } else { *bp++ = *s++; continue; } if (s[2] && (p = StrChr(HTmmquote, s[2]))) { cval = (char) (cval << 4); cval = (char) (cval + (p - HTmmquote)); *bp++ = cval; s += 3; } else { *bp++ = *s++; } } else if (*s == '_') { *bp++ = 0x20; s++; } else { *bp++ = *s++; } } *bp = '\0'; StrAllocCopy(*t, buf); FREE(buf); } /* * HTmmdecode for ISO-2022-JP - FM */ void HTmmdecode(char **target, char *source) { char *buf; char *mmbuf = NULL; char *m2buf = NULL; char *s, *t, *u; int base64, quote; if ((buf = typeMallocn(char, strlen(source) + 1)) == 0) outofmem(__FILE__, "HTmmdecode"); for (s = source, *(u = buf) = '\0'; *s;) { if (!strncasecomp(s, "=?ISO-2022-JP?B?", 16)) { base64 = 1; } else { base64 = 0; } if (!strncasecomp(s, "=?ISO-2022-JP?Q?", 16)) { quote = 1; } else { quote = 0; } if (base64 || quote) { if (HTmmcont) { for (t = s - 1; t >= source && (*t == ' ' || *t == '\t'); t--) { u--; } } if (mmbuf == 0) /* allocate buffer big enough for source */ StrAllocCopy(mmbuf, source); for (s += 16, t = mmbuf; *s;) { if (s[0] == '?' && s[1] == '=') { break; } else { *t++ = *s++; *t = '\0'; } } if (s[0] != '?' || s[1] != '=') { goto end; } else { s += 2; *t = '\0'; } if (base64) HTmmdec_base64(&m2buf, mmbuf); else HTmmdec_quote(&m2buf, mmbuf); for (t = m2buf; non_empty(t);) *u++ = *t++; HTmmcont = 1; } else { if (*s != ' ' && *s != '\t') HTmmcont = 0; *u++ = *s++; } } *u = '\0'; end: StrAllocCopy(*target, buf); FREE(m2buf); FREE(mmbuf); FREE(buf); } /* * Insert ESC where it seems lost. * (The author of this function "rjis" is S. Ichikawa.) */ int HTrjis(char **t, char *s) { char *p; char *buf = NULL; int kanji = 0; if (StrChr(s, CH_ESC) || !StrChr(s, '$')) { if (s != *t) StrAllocCopy(*t, s); return 1; } if ((buf = typeMallocn(char, strlen(s) * 2 + 1)) == 0) outofmem(__FILE__, "HTrjis"); for (p = buf; *s;) { if (!kanji && s[0] == '$' && (s[1] == '@' || s[1] == 'B')) { if (HTmaybekanji((int) s[2], (int) s[3])) { kanji = 1; *p++ = CH_ESC; *p++ = *s++; *p++ = *s++; *p++ = *s++; *p++ = *s++; continue; } *p++ = *s++; continue; } if (kanji && s[0] == '(' && (s[1] == 'J' || s[1] == 'B')) { kanji = 0; *p++ = CH_ESC; *p++ = *s++; *p++ = *s++; continue; } *p++ = *s++; } *p = *s; /* terminate string */ StrAllocCopy(*t, buf); FREE(buf); return 0; } /* * The following function "maybekanji" is derived from * RJIS-1.0 by Mr. Hironobu Takahashi. * Maybekanji() is included here under the courtesy of the author. * The original comment of rjis.c is also included here. */ /* * RJIS ( Recover JIS code from broken file ) * Copyright (C) 1992 1994 * Hironobu Takahashi (takahasi@tiny.or.jp) * * 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; either versions 2, or (at your option) * any later version. * * This program 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 SKK, see the file COPYING. If not, write to the Free * Software Foundation Inc., 675 Mass Ave, Cambridge, MA 02139, USA. */ int HTmaybekanji(int c1, int c2) { if ((c2 < 33) || (c2 > 126)) return 0; if ((c1 < 33) || ((40 < c1) && (c1 < 48)) || (116 < c1)) return 0; c2 -= 32; switch (c1 - 32) { case 2: if ((14 < c2) && (c2 < 26)) return 0; if ((33 < c2) && (c2 < 42)) return 0; if ((48 < c2) && (c2 < 60)) return 0; if ((74 < c2) && (c2 < 82)) return 0; if ((89 < c2) && (c2 < 94)) return 0; break; case 3: if (c2 < 16) return 0; if ((25 < c2) && (c2 < 33)) return 0; if ((58 < c2) && (c2 < 65)) return 0; if (90 < c2) return 0; break; case 4: if (83 < c2) return 0; break; case 5: if (86 < c2) return 0; break; case 6: if ((24 < c2) && (c2 < 33)) return 0; if (56 < c2) return 0; break; case 7: if ((33 < c2) && (c2 < 49)) return 0; if (81 < c2) return 0; break; case 8: if (32 < c2) return 0; break; case 47: if (51 < c2) return 0; break; case 84: if (6 < c2) return 0; break; } return 1; }