/** @file Parser: String class part: untaint mechanizm. Copyright(c) 2001-2005 ArtLebedev Group (http://www.artlebedev.com) Author: Alexandr Petrosian (http://paf.design.ru) */ static const char * const IDENT_UNTAINT_C="$Date: 2009/04/15 07:48:13 $"; #include "pa_string.h" #include "pa_hash.h" #include "pa_exception.h" #include "pa_table.h" #include "pa_globals.h" #include "pa_dictionary.h" #include "pa_common.h" #include "pa_charset.h" #include "pa_request_charsets.h" #include "pa_sapi.h" extern "C" { // author forgot to do that #include "ec.h" } #include "pa_sql_connection.h" // defines #undef CORD_ec_append // redefining to intercept flushes and implement whitespace optimization // of all consequent white space chars leaving only first one #define CORD_ec_append(x, c) \ { \ bool skip=false; \ if(optimize) switch(c) { \ case ' ': case '\n': case '\t': \ if(whitespace) \ skip=true; /*skipping subsequent*/ \ else \ whitespace=true; \ break; \ default: \ whitespace=false; \ break; \ } \ if(!skip) { \ if ((x)[0].ec_bufptr == (x)[0].ec_buf + CORD_BUFSZ) { \ CORD_ec_flush_buf(x); \ } \ *((x)[0].ec_bufptr)++ = (c); \ } \ } #define escape_fragment(action) \ for(; fragment_length--; CORD_next(info->pos)) { \ char c=CORD_pos_fetch(info->pos); \ action \ } #define _default CORD_ec_append(info->result, c) #define encode(need_encode_func, prefix, otherwise) \ if(need_encode_func(c)) { \ static const char* hex="0123456789ABCDEF"; \ CORD_ec_append(info->result, prefix); \ CORD_ec_append(info->result, hex[((unsigned char)c)/0x10]); \ CORD_ec_append(info->result, hex[((unsigned char)c)%0x10]); \ } else \ CORD_ec_append(info->result, otherwise); #define to_char(c) { CORD_ec_append(info->result, c); whitespace=false; } #define to_string(s) { CORD_ec_append_cord(info->result, s); whitespace=false; } inline bool need_file_encode(unsigned char c){ // russian letters and space ENABLED // encoding only these... return strchr( "*?'\"<>|" #ifndef WIN32 ":\\" #endif , c)!=0; } inline bool need_uri_encode(unsigned char c){ if((c>='0') &&(c<='9') ||(c>='A') &&(c<='Z') ||(c>='a') &&(c<='z')) return false; return !strchr("_-./", c); } inline bool need_http_header_encode(unsigned char c){ if(strchr(" , :", c)) return false; return need_uri_encode(c); } inline bool need_regex_escape(unsigned char c){ return strchr("\\^$.[]|()?*+{}-", c)!=0; } // String /* HTTP-header = field-name ":" [ field-value ] CRLF field-name = token field-value = *( field-content | LWS ) field-content = word = token | quoted-string token = 1* tspecials = "(" | ")" | "<" | ">" | "@" | "," | ";" | ":" | "\" | <"> | "/" | "[" | "]" | "?" | "=" | "{" | "}" | SP | HT SP = HT = LWS = [CRLF] 1*( SP | HT ) TEXT = quoted-pair = "\" CHAR if(strchr("()<>@,;:\\\"/[]?={} \t", *ptr)) */ inline bool need_quote_http_header(const char* ptr, size_t size) { for(; size--; ptr++) if(strchr(";\\\"= \t" /* excluded ()<>@, :/ ? []{} */, *ptr)) return true; return false; } #ifndef DOXYGEN struct Append_fragment_info { String::Language lang; String::Languages* dest_languages; size_t dest_body_plan_length; }; #endif int append_fragment_optimizing(char alang, size_t asize, Append_fragment_info* info) { const String::Language lang=(String::Language)(unsigned char)alang; // main idea here: // tainted piece would get OPTIMIZED bit from 'lang' // clean piece would be marked OPTIMIZED manually // pieces with determined languages [not tainted|clean] would retain theirs langs info->dest_languages->append(info->dest_body_plan_length, lang==String::L_TAINTED? info->lang :lang==String::L_CLEAN? (String::Language)(String::L_CLEAN|String::L_OPTIMIZE_BIT) // ORing with OPTIMIZED flag :lang, asize); info->dest_body_plan_length+=asize; return 0; // 0=continue } int append_fragment_nonoptimizing(char alang, size_t asize, Append_fragment_info* info) { const String::Language lang=(String::Language)(unsigned char)alang; // The core idea: tainted pieces got marked with context's lang info->dest_languages->append(info->dest_body_plan_length, lang==String::L_TAINTED? info->lang :lang, asize); info->dest_body_plan_length+=asize; return 0; // 0=continue } /** appends to other String, marking all tainted pieces of it with @a lang. or marking ALL pieces of it with a @a lang when @a forced to, and propagating OPTIMIZE language bit. */ String& String::append_to(String& dest, Language lang, bool forced) const { if(is_empty()) return dest; // first: fragment infos if(lang==L_PASS_APPENDED) // without language-change? dest.langs.appendHelper(dest.body, body, langs); else if(forced) //forcing passed lang? dest.langs.append(dest.body, lang, length()); else { Append_fragment_info info={lang, &dest.langs, dest.body.length()}; langs.for_each(body, lang&L_OPTIMIZE_BIT? append_fragment_optimizing :append_fragment_nonoptimizing, &info); } // next: letters dest.body<. An 'encoded-word' that appears within a 'phrase' MUST be separated from any adjacent 'word', 'text' or 'special' by 'linear-white-space'. ... (2) The 8-bit hexadecimal value 20 (e.g., ISO-8859-1 SPACE) may be represented as "_" (underscore, ASCII 95.). (This character may not pass through some internetwork mail gateways, but its use will greatly enhance readability of "Q" encoded data with mail readers that do not support this encoding.) Note that the "_" always represents hexadecimal 20, even if the SPACE character occupies a different code position in the character set in use. paf: obviously, without "=", or one could not differ "=E0" and "russian letter a" and without "_", or in would mean 0x20 */ inline bool mail_header_char_valid_within_Qencoded(char c) { return c>='A' && c<='Z' || c>='a' && c<='Z' || c>='0' && c<='9' || strchr("!*+-/", c); } inline bool addr_spec_soon(const char *src) { for(char c; (c=*src); src++) if(c=='<') return true; else if(!(c==' ' || c=='\t')) return false; return false; } /** RFC Upper case should be used for hexadecimal digits "A" through "F" The 8-bit hexadecimal value 20 (e.g., ISO-8859-1 SPACE) may be represented as "_" */ inline bool mail_header_nonspace_char(char c) { return c != 0x20; } inline void ec_append(CORD_ec& result, bool& optimize, bool& whitespace, CORD_pos pos, size_t size) { while(size--) { CORD_ec_append(result, CORD_pos_fetch(pos)); CORD_next(pos); } } inline void pa_CORD_pos_advance(CORD_pos pos, size_t n) { while(true) { long avail=CORD_pos_chars_left(pos); if(avail<=0) { CORD_next(pos); if(!--n) break; } else if((size_t)avail=n CORD_pos_advance(pos, n); break; } } } #ifndef DOXYGEN struct Cstr_to_string_body_block_info { // input String::Language lang; SQL_Connection* connection; const Request_charsets* charsets; const String::Body* body; // output CORD_ec result; // private CORD_pos pos; size_t fragment_begin; bool whitespace; const char* exception; }; #endif int cstr_to_string_body_block(char alang, size_t fragment_length, Cstr_to_string_body_block_info* info) { const String::Language fragment_lang=(String::Language)(unsigned char)alang; bool& whitespace=info->whitespace; size_t fragment_end=info->fragment_begin+fragment_length; //fprintf(stderr, "%d, %d =%s=\n", fragment_lang, fragment_length, info->body->cstr()); String::Language to_lang=info->lang==String::L_UNSPECIFIED?fragment_lang:info->lang; bool optimize=(to_lang & String::L_OPTIMIZE_BIT)!=0; if(!optimize) whitespace=false; switch(to_lang & ~String::L_OPTIMIZE_BIT) { case String::L_CLEAN: case String::L_TAINTED: case String::L_AS_IS: // clean piece // tainted piece, but undefined untaint language // for VString.as_double of tainted values // for ^process{body} evaluation // tainted, untaint language: as-is ec_append(info->result, optimize, whitespace, info->pos, fragment_length); break; case String::L_FILE_SPEC: // tainted, untaint language: file [name] { bool is1251=(info->charsets && info->charsets->source().NAME()=="WINDOWS-1251"); escape_fragment( // Macintosh has problems with small Russian letter 'r' if( is1251 && c=='\xF0' ) { // fixing that letter for most common charset to_char('p'); } else // fallback to default encode(need_file_encode, '_', c); ); } break; case String::L_FILE_POST: { escape_fragment(switch(c) { case '\0': to_string("\\0"); break; case '\\': to_string("\\\\"); break; default: _default; break; }); } break; case String::L_URI: // tainted, untaint language: uri { const char *fragment_str=info->body->mid(info->fragment_begin, fragment_length).cstr(); // skip source [we use recoded version] pa_CORD_pos_advance(info->pos, fragment_length); String::C output(fragment_str, fragment_length); if(info->charsets) output=Charset::transcode(output, info->charsets->source(), info->charsets->client()); char c; for(const char* src=output.str; (c=*src++); ) encode(need_uri_encode, '%', c); } break; case String::L_HTTP_HEADER: // tainted, untaint language: http-field-content-text // the same as L_URI BUT not transcoded into $response:charset before encoding escape_fragment( encode(need_uri_encode, '%', c); ); break; case String::L_MAIL_HEADER: // tainted, untaint language: mail-header // http://www.ietf.org/rfc/rfc2047.txt if(info->charsets) { size_t mail_size; const char *mail_ptr= info->body->mid(info->fragment_begin, mail_size=fragment_length).cstr(); // skip source [we use recoded version] pa_CORD_pos_advance(info->pos, mail_size); const char* charset_name=info->charsets->mail().NAME().cstr(); // Subject: Re: parser3: =?koi8-r?Q?=D3=C5=CD=C9=CE=C1=D2?= bool to_quoted_printable=false; bool email=false; uchar c; for(const char* src=mail_ptr; (c=(uchar)*src++); ) { if(c=='\r' || c=='\n') c=' '; if(to_quoted_printable && (c==',' || c == '"' || addr_spec_soon(src-1/*position to 'c'*/))) { email=c=='<'; to_string("?="); to_quoted_printable=false; } //RFC + An 'encoded-word' MUST NOT appear in any portion of an 'addr-spec'. if(!email && ( !to_quoted_printable && (c & 0x80) // starting quote-printable-encoding on first 8bit char || to_quoted_printable && !mail_header_char_valid_within_Qencoded(c) )) { if(!to_quoted_printable) { to_string("=?"); to_string(charset_name); to_string("?Q?"); to_quoted_printable=true; } encode(mail_header_nonspace_char, '=', '_'); } else to_char(c); if(c=='>') email=false; } if(to_quoted_printable) // close to_string("?="); } else ec_append(info->result, optimize, whitespace, info->pos, fragment_length); break; case String::L_SQL: // tainted, untaint language: sql if(info->connection) { const char *fragment_str=info->body->mid(info->fragment_begin, fragment_length).cstr(); // skip source [we use recoded version] pa_CORD_pos_advance(info->pos, fragment_length); to_string(info->connection->quote(fragment_str, fragment_length)); } else { info->exception="untaint in SQL language failed - no connection specified"; info->fragment_begin=fragment_end; return 1; // stop processing. can't throw exception here } break; case String::L_JS: escape_fragment(switch(c) { case '\n': to_string("\\n"); break; case '"': to_string("\\\""); break; case '\'': to_string("\\'"); break; case '\\': to_string("\\\\"); break; case '\xFF': to_string("\\\xFF"); break; default: _default; break; }); break; case String::L_XML: // [2] Char ::= #x9 | #xA | #xD | [#x20-#xD7FF] | [#xE000-#xFFFD] | [#x10000-#x10FFFF] escape_fragment(switch(c) { case '\x20': case '\x9': case '\xA': case '\xD': // this is usually removed on input _default; break; case '&': to_string("&"); break; case '>': to_string(">"); break; case '<': to_string("<"); break; case '"': to_string("""); break; case '\'': to_string("'"); break; default: if(((unsigned char)c)<0x20) { // fixing it, so that libxml would not result // in fatal error parsing text // though it really violates standard. // to indicate there were an error // replace bad char not to it's code, // which we can do, // but rather to '!' to show that input were actually // invalid. // life: shows that MSIE can somehow garble form values // so that they contain these chars. to_char('!'); } else { _default; } break; }); break; case String::L_HTML: escape_fragment(switch(c) { case '&': to_string("&"); break; case '>': to_string(">"); break; case '<': to_string("<"); break; case '"': to_string("""); break; default: _default; break; }); break; case String::L_REGEX: // tainted, untaint language: regex escape_fragment( if(need_regex_escape(c)) to_char('\\') _default; ); break; case String::L_HTTP_COOKIE: // tainted, untaint language: cookie (3.3.0 and higher: %uXXXX in UTF-8) { const char *fragment_str=info->body->mid(info->fragment_begin, fragment_length).cstr(); // skip source [we use recoded version] pa_CORD_pos_advance(info->pos, fragment_length); String::C output(fragment_str, fragment_length); output=Charset::escape(output, info->charsets->source()); //throw Exception(0, 0, output); to_string(output); } break; default: SAPI::abort("unknown untaint language #%d", static_cast(to_lang)); // should never break; // never } info->fragment_begin=fragment_end; return 0; // 0=continue } String::Body String::cstr_to_string_body(Language lang, SQL_Connection* connection, const Request_charsets *charsets) const { if(is_empty()) return String::Body(); Cstr_to_string_body_block_info info; // input info.lang=lang; info.connection=connection; info.charsets=charsets; info.body=&body; // output CORD_ec_init(info.result); // private body.set_pos(info.pos, 0); info.fragment_begin=0; info.exception=0; info.whitespace=true; langs.for_each(body, cstr_to_string_body_block, &info); if(info.exception){ throw Exception(0, 0, info.exception); } return String::Body(CORD_ec_to_cord(info.result)); }