ref: ec35f468e0eba87c9f09cbbe5fa8af2591e6f914
dir: /appl/lib/w3c/uris.b/
implement URIs; # # RFC3986, URI Generic Syntax # include "sys.m"; sys: Sys; include "string.m"; S: String; include "uris.m"; Alpha: con "abcdefghijklmnopqrstuvwxyzABCDEFGHIJKLMNOPQRSTUVWXYZ"; Digit: con "0123456789"; GenDelims: con ":/?#[]@"; SubDelims: con "!$&'()*+,;="; Reserved: con GenDelims + SubDelims; HexDigit: con Digit+"abcdefABCDEF"; Escape: con GenDelims+"%"; # "%" must be encoded as %25 Unreserved: con Alpha+Digit+"-._~"; F_Esc, F_Scheme: con byte(1<<iota); ctype: array of byte; classify(s: string, f: byte) { for(i := 0; i < len s; i++) ctype[s[i]] |= f; } init() { sys = load Sys Sys->PATH; S = load String String->PATH; if(S == nil) raise sys->sprint("can't load %s: %r", String->PATH); ctype = array [256] of { * => byte 0 }; classify(Escape, F_Esc); for(i := 0; i <= ' '; i++) ctype[i] |= F_Esc; for(i = 16r80; i <= 16rFF; i++) ctype[i] |= F_Esc; classify(Alpha+Digit+"+-.", F_Scheme); } # scheme://<user>:<passwd>@<host>:<port>/<path>?<query>#<fragment> # # ^(([^:/?#]+):)?(//([^/?#]*))?([^?#]*)(\?([^#]*))?(#(.*))? # # delimiters: :/?# /?# ?# # # URI.parse(url: string): ref URI { scheme, userinfo, host, port, path, query, frag: string; for(i := 0; i < len url; i++){ c := url[i]; if(c == ':'){ scheme = S->tolower(url[0:i]); url = url[i+1:]; break; } if(c < 0 || c >= len ctype || (ctype[c] & F_Scheme) == byte 0) break; } if(S->prefix("//", url)){ authority: string; (authority, path) = S->splitstrl(url[2:], "/"); (up, hp) := splitl(authority, "@"); if(hp == "") hp = authority; else userinfo = up; if(hp != nil && hp[0] == '['){ # another rfc hack, for IPv6 addresses, which contain : (host, hp) = S->splitstrr(hp, "]"); if(hp != nil && hp[0] == ':') port = hp[1:]; else host += hp; # put it back }else (host, port) = splitl(hp, ":"); if(path == nil) path = "/"; }else path = url; (path, frag) = S->splitstrl(path, "#"); # includes # in frag (path, query) = S->splitstrl(path, "?"); # includes ? in query return ref URI(scheme, dec(userinfo), dec(host), port, dec(path), query, dec(frag)); } URI.userpw(u: self ref URI): (string, string) { return splitl(u.userinfo, ":"); } URI.text(u: self ref URI): string { s := ""; if(u.scheme != nil) s += u.scheme + ":"; if(u.hasauthority()) s += "//" + u.authority(); return s + enc(u.path, "/@:") + u.query + enc1(u.fragment, "@:/?"); } URI.copy(u: self ref URI): ref URI { return ref *u; } URI.pathonly(u: self ref URI): ref URI { v := ref *u; v.userinfo = nil; v.query = nil; v.fragment = nil; return v; } URI.addbase(u: self ref URI, b: ref URI): ref URI { # RFC3986 5.2.2, rearranged r := ref *u; if(r.scheme == nil && b != nil){ r.scheme = b.scheme; if(!r.hasauthority()){ r.userinfo = b.userinfo; r.host = b.host; r.port = b.port; if(r.path == nil){ r.path = b.path; if(r.query == nil) r.query = b.query; }else if(r.path[0] != '/'){ # 5.2.3: merge paths if(b.path == "" && b.hasauthority()) p1 := "/"; else (p1, nil) = S->splitstrr(b.path, "/"); r.path = p1 + r.path; } } } r.path = removedots(r.path); return r; } URI.nodots(u: self ref URI): ref URI { return u.addbase(nil); } URI.hasauthority(u: self ref URI): int { return u.host != nil || u.userinfo != nil || u.port != nil; } URI.isabsolute(u: self ref URI): int { return u.scheme != nil; } URI.authority(u: self ref URI): string { s := enc(u.userinfo, ":"); if(s != nil) s += "@"; if(u.host != nil){ s += enc(u.host, "[]:"); # assumes : appears inside []; could enforce it if(u.port != nil) s += ":" + enc(u.port,nil); } return s; } # # simplified version of procedure in RFC3986 5.2.4: # it extracts a complete segment from the input first, then analyses it # removedots(s: string): string { if(s == nil) return ""; out := ""; for(p := 0; p < len s;){ # extract the first segment and any preceding / q := p; if(++p < len s){ while(++p < len s && s[p] != '/') {} } seg := s[q: p]; if((e := p) < len s) e++; case s[q: e] { # includes any following / "../" or "./" => ; "/./" or "/." => if(p >= len s) s += "/"; "/../" or "/.." => if(p >= len s) s += "/"; if(out != nil){ for(q = len out; --q > 0 && out[q] != '/';) {} # skip out = out[0: q]; } "." or ".." => ; # null effect * => # including "/" out += seg; } } return out; } # # similar to splitstrl but trims the matched character from the result # splitl(s, c: string): (string, string) { (a, b) := S->splitstrl(s, c); if(b != "") b = b[1:]; return (a, b); } hex2(s: string): int { n := 0; for(i := 0; i < 2; i++){ if(i >= len s) return -1; n <<= 4; case c := s[i] { '0' to '9' => n += c-'0'; 'a' to 'f' => n += 10+(c-'a'); 'A' to 'F' => n += 10+(c-'A'); * => return -1; } } return n; } dec(s: string): string { for(i := 0;; i++){ if(i >= len s) return s; if(s[i] == '%' || s[i] == 0) break; } t := s[0:i]; a := array[Sys->UTFmax*len s] of byte; # upper bound o := 0; while(i < len s){ c := s[i++]; if(c < 16r80){ case c { '%' => if((v := hex2(s[i:])) > 0){ c = v; i += 2; } 0 => c = ' '; # shouldn't happen } a[o++] = byte c; }else o += sys->char2byte(c, a, o); # string contained Unicode } return t + string a[0:o]; } enc1(s: string, safe: string): string { if(len s > 1) return s[0:1] + enc(s[1:], safe); return s; } # encoding depends on context (eg, &=/: not escaped in `query' string) enc(s: string, safe: string): string { for(i := 0;; i++){ if(i >= len s) return s; # use as-is c := s[i]; if(c >= 16r80 || (ctype[c] & F_Esc) != byte 0 && !S->in(c, safe)) break; } t := s[0: i]; b := array of byte s[i:]; for(i = 0; i < len b; i++){ c := int b[i]; if((ctype[c] & F_Esc) != byte 0 && !S->in(c, safe)) t += sys->sprint("%%%.2X", c); else t[len t] = c; } return t; } URI.eq(u: self ref URI, v: ref URI): int { if(v == nil) return 0; return u.scheme == v.scheme && u.userinfo == v.userinfo && u.host == v.host && u.port == v.port && u.path == v.path && # path might need canon u.query == v.query; # not fragment } URI.eqf(u: self ref URI, v: ref URI): int { return u.eq(v) && u.fragment == v.fragment; }