%%{ machine rfc3986; #action trace; #action success; #action failure; #action scheme_begin; #action scheme_end; #action hier_begin; #action hier_end; #action user_begin; #action user_end; #action host_begin; #action host_end; #action port_begin; #action port_end; #action authority_begin; #action authority_end; #action path_begin; #action path_end; #action query_begin; #action query_end; #action fragment_begin; #action fragment_end; #action uri_begin; #action uri_end; ## Characters unreserved = alpha | digit | "-" | "." | "_" | "~"; pct_encoded = '%' xdigit xdigit; gen_delim = ":" | "/" | "?" | "#" | "[" | "]" | "@"; sub_delim = "!" | "$" | "&" | "'" | "(" | ")" | "*" | "+" | "," | ";" | "="; pchar = unreserved | pct_encoded | sub_delim | ':' | '@'; ## Atoms reg_name = (unreserved | pct_encoded | sub_delim)*; ## IP-address ## Note: The address grammar is embedded in the RFC so we embed it too dec_octet = digit | [1-9] digit | '1' digit{2} | '2' [0-4] digit | '25' [0-5]; ipv4address = dec_octet '.' dec_octet '.' dec_octet '.' dec_octet; h16 = xdigit{1,4}; ls32 = (h16 ":" h16) | ipv4address; ipv6address = (h16 ":"){6} ls32 | "::" (h16 ":"){5} ls32 | ( h16)? "::" (h16 ":"){4} ls32 | ((h16 ":"){0,1} h16)? "::" (h16 ":"){3} ls32 | ((h16 ":"){0,2} h16)? "::" (h16 ":"){2} ls32 | ((h16 ":"){0,3} h16)? "::" (h16 ":"){1} ls32 | ((h16 ":"){0,4} h16)? "::" ls32 | ((h16 ":"){0,5} h16)? "::" h16 | ((h16 ":"){0,6} h16)? "::" ; ipvfuture = 'v' xdigit{1,} '.' (unreserved | sub_delim | ':'){1,}; ip_literal = '[' (ipv6address | ipvfuture) ']'; ## Segments segment = pchar*; segment_nz = pchar{1,}; segment_nz_nc = (unreserved | pct_encoded | sub_delim | '@'){1,}; ## Paths path_abempty = ('/' segment)*; path_absolute = '/' (segment_nz ('/' segment)*)?; path_noscheme = segment_nz_nc ('/' segment)*; path_rootless = segment_nz ('/' segment)*; path_empty = zlen; path = ( path_abempty | path_absolute | path_noscheme | path_rootless | path_empty ); reserved = gen_delim | sub_delim; ## Authority port = ( digit* ) >port_begin %port_end; host = ( ip_literal | ipv4address | reg_name ) >host_begin %host_end; userinfo = ( (unreserved | pct_encoded | sub_delim | ':')* ) >user_begin %user_end; authority = ( (userinfo '@')? host (':' port)? ) >authority_begin %authority_end; ## URI components scheme = ( alpha (alpha | digit | '+' | '-' | '.')* ) >scheme_begin %scheme_end; query = ( (pchar | '/' | '?')* ) >query_begin %query_end; fragment = ( (pchar | '/' | '?')* ) >fragment_begin %fragment_end; ## URI types hier_part = ( ( '//' (authority path_abempty >path_begin %path_end) >hier_begin %hier_end ) | ( path_absolute >path_begin %path_end | path_rootless >path_begin %path_end | path_empty >path_begin %path_end ) >hier_begin %hier_end ); uri = scheme ':' hier_part ('?' query)? ('#' fragment)?; relative_part = ( '//' (authority path_abempty >path_begin %path_end) >hier_begin %hier_end ) | ( path_absolute >path_begin %path_end | path_noscheme >path_begin %path_end | path_empty >path_begin %path_end ) >hier_begin %hier_end; relative_ref = relative_part ('?' query)? ('#' fragment)?; uri_reference = uri | relative_ref; absolute_uri = scheme ':' hier_part ('?' query)?; URI = ( absolute_uri | uri_reference ); }%%