#include #include "chunk.h" #include "scanners.h" bufsize_t _scan_at(bufsize_t (*scanner)(const unsigned char *), cmark_chunk *c, bufsize_t offset) { bufsize_t res; unsigned char *ptr = (unsigned char *)c->data; if (ptr == NULL || offset > c->len) { return 0; } else { unsigned char lim = ptr[c->len]; ptr[c->len] = '\0'; res = scanner(ptr + offset); ptr[c->len] = lim; } return res; } /*!re2c re2c:define:YYCTYPE = "unsigned char"; re2c:define:YYCURSOR = p; re2c:define:YYMARKER = marker; re2c:define:YYCTXMARKER = marker; re2c:yyfill:enable = 0; wordchar = [^\x00-\x20]; spacechar = [ \t\v\f\r\n]; reg_char = [^\\()\x00-\x20]; escaped_char = [\\][!"#$%&'()*+,./:;<=>?@[\\\]^_`{|}~-]; tagname = [A-Za-z][A-Za-z0-9-]*; blocktagname = 'address'|'article'|'aside'|'base'|'basefont'|'blockquote'|'body'|'caption'|'center'|'col'|'colgroup'|'dd'|'details'|'dialog'|'dir'|'div'|'dl'|'dt'|'fieldset'|'figcaption'|'figure'|'footer'|'form'|'frame'|'frameset'|'h1'|'h2'|'h3'|'h4'|'h5'|'h6'|'head'|'header'|'hr'|'html'|'iframe'|'legend'|'li'|'link'|'main'|'menu'|'menuitem'|'nav'|'noframes'|'ol'|'optgroup'|'option'|'p'|'param'|'section'|'source'|'title'|'summary'|'table'|'tbody'|'td'|'tfoot'|'th'|'thead'|'title'|'tr'|'track'|'ul'; attributename = [a-zA-Z_:][a-zA-Z0-9:._-]*; unquotedvalue = [^ \t\r\n\v\f"'=<>`\x00]+; singlequotedvalue = ['][^'\x00]*[']; doublequotedvalue = ["][^"\x00]*["]; attributevalue = unquotedvalue | singlequotedvalue | doublequotedvalue; attributevaluespec = spacechar* [=] spacechar* attributevalue; attribute = spacechar+ attributename attributevaluespec?; opentag = tagname attribute* spacechar* [/]? [>]; closetag = [/] tagname spacechar* [>]; htmlcomment = "!---->" | ("!--" ([-]? [^\x00>-]) ([-]? [^\x00-])* "-->"); processinginstruction = "?" ([^?>\x00]+ | [?][^>\x00] | [>])* "?>"; declaration = "!" [A-Z]+ spacechar+ [^>\x00]* ">"; cdata = "![CDATA[" ([^\]\x00]+ | "]" [^\]\x00] | "]]" [^>\x00])* "]]>"; htmltag = opentag | closetag | htmlcomment | processinginstruction | declaration | cdata; in_parens_nosp = [(] (reg_char|escaped_char|[\\])* [)]; in_double_quotes = ["] (escaped_char|[^"\x00])* ["]; in_single_quotes = ['] (escaped_char|[^'\x00])* [']; in_parens = [(] (escaped_char|[^)\x00])* [)]; scheme = [A-Za-z][A-Za-z0-9.+-]{1,31}; */ // Try to match a scheme including colon. bufsize_t _scan_scheme(const unsigned char *p) { const unsigned char *marker = NULL; const unsigned char *start = p; /*!re2c scheme [:] { return (bufsize_t)(p - start); } * { return 0; } */ } // Try to match URI autolink after first <, returning number of chars matched. bufsize_t _scan_autolink_uri(const unsigned char *p) { const unsigned char *marker = NULL; const unsigned char *start = p; /*!re2c scheme [:][^\x00-\x20<>]*[>] { return (bufsize_t)(p - start); } * { return 0; } */ } // Try to match email autolink after first <, returning num of chars matched. bufsize_t _scan_autolink_email(const unsigned char *p) { const unsigned char *marker = NULL; const unsigned char *start = p; /*!re2c [a-zA-Z0-9.!#$%&'*+/=?^_`{|}~-]+ [@] [a-zA-Z0-9]([a-zA-Z0-9-]{0,61}[a-zA-Z0-9])? ([.][a-zA-Z0-9]([a-zA-Z0-9-]{0,61}[a-zA-Z0-9])?)* [>] { return (bufsize_t)(p - start); } * { return 0; } */ } // Try to match an HTML tag after first <, returning num of chars matched. bufsize_t _scan_html_tag(const unsigned char *p) { const unsigned char *marker = NULL; const unsigned char *start = p; /*!re2c htmltag { return (bufsize_t)(p - start); } * { return 0; } */ } // Try to match an HTML block tag start line, returning // an integer code for the type of block (1-6, matching the spec). // #7 is handled by a separate function, below. bufsize_t _scan_html_block_start(const unsigned char *p) { const unsigned char *marker = NULL; /*!re2c [<] ('script'|'pre'|'textarea'|'style') (spacechar | [>]) { return 1; } '' { return (bufsize_t)(p - start); } * { return 0; } */ } // Try to match an HTML block end line of type 3 bufsize_t _scan_html_block_end_3(const unsigned char *p) { const unsigned char *marker = NULL; const unsigned char *start = p; /*!re2c [^\n\x00]* '?>' { return (bufsize_t)(p - start); } * { return 0; } */ } // Try to match an HTML block end line of type 4 bufsize_t _scan_html_block_end_4(const unsigned char *p) { const unsigned char *marker = NULL; const unsigned char *start = p; /*!re2c [^\n\x00]* '>' { return (bufsize_t)(p - start); } * { return 0; } */ } // Try to match an HTML block end line of type 5 bufsize_t _scan_html_block_end_5(const unsigned char *p) { const unsigned char *marker = NULL; const unsigned char *start = p; /*!re2c [^\n\x00]* ']]>' { return (bufsize_t)(p - start); } * { return 0; } */ } // Try to match a link title (in single quotes, in double quotes, or // in parentheses), returning number of chars matched. Allow one // level of internal nesting (quotes within quotes). bufsize_t _scan_link_title(const unsigned char *p) { const unsigned char *marker = NULL; const unsigned char *start = p; /*!re2c ["] (escaped_char|[^"\x00])* ["] { return (bufsize_t)(p - start); } ['] (escaped_char|[^'\x00])* ['] { return (bufsize_t)(p - start); } [(] (escaped_char|[^()\x00])* [)] { return (bufsize_t)(p - start); } * { return 0; } */ } // Match space characters, including newlines. bufsize_t _scan_spacechars(const unsigned char *p) { const unsigned char *start = p; \ /*!re2c [ \t\v\f\r\n]+ { return (bufsize_t)(p - start); } * { return 0; } */ } // Match ATX heading start. bufsize_t _scan_atx_heading_start(const unsigned char *p) { const unsigned char *marker = NULL; const unsigned char *start = p; /*!re2c [#]{1,6} ([ \t]+|[\r\n]) { return (bufsize_t)(p - start); } * { return 0; } */ } // Match setext heading line. Return 1 for level-1 heading, // 2 for level-2, 0 for no match. bufsize_t _scan_setext_heading_line(const unsigned char *p) { const unsigned char *marker = NULL; /*!re2c [=]+ [ \t]* [\r\n] { return 1; } [-]+ [ \t]* [\r\n] { return 2; } * { return 0; } */ } // Scan an opening code fence. bufsize_t _scan_open_code_fence(const unsigned char *p) { const unsigned char *marker = NULL; const unsigned char *start = p; /*!re2c [`]{3,} / [^`\r\n\x00]*[\r\n] { return (bufsize_t)(p - start); } [~]{3,} / [^\r\n\x00]*[\r\n] { return (bufsize_t)(p - start); } * { return 0; } */ } // Scan a closing code fence with length at least len. bufsize_t _scan_close_code_fence(const unsigned char *p) { const unsigned char *marker = NULL; const unsigned char *start = p; /*!re2c [`]{3,} / [ \t]*[\r\n] { return (bufsize_t)(p - start); } [~]{3,} / [ \t]*[\r\n] { return (bufsize_t)(p - start); } * { return 0; } */ } // Scans an entity. // Returns number of chars matched. bufsize_t _scan_entity(const unsigned char *p) { const unsigned char *marker = NULL; const unsigned char *start = p; /*!re2c [&] ([#] ([Xx][A-Fa-f0-9]{1,6}|[0-9]{1,7}) |[A-Za-z][A-Za-z0-9]{1,31} ) [;] { return (bufsize_t)(p - start); } * { return 0; } */ } // Returns positive value if a URL begins in a way that is potentially // dangerous, with javascript:, vbscript:, file:, or data:, otherwise 0. bufsize_t _scan_dangerous_url(const unsigned char *p) { const unsigned char *marker = NULL; const unsigned char *start = p; /*!re2c 'data:image/' ('png'|'gif'|'jpeg'|'webp') { return 0; } 'javascript:' | 'vbscript:' | 'file:' | 'data:' { return (bufsize_t)(p - start); } * { return 0; } */ }