module vweb import io import strings import net.http import net.urllib fn parse_request(mut reader io.BufferedReader) ?http.Request { // request line mut line := reader.read_line() ? method, target, version := parse_request_line(line) ? // headers mut h := http.new_header() line = reader.read_line() ? for line != '' { key, value := parse_header(line) ? h.add_custom(key, value) ? line = reader.read_line() ? } h.coerce(canonicalize: true) // create map[string]string from headers // TODO: replace headers and lheaders with http.Header type mut headers := map[string]string{} mut lheaders := map[string]string{} for key in h.keys() { values := h.custom_values(key).join('; ') headers[key] = values lheaders[key.to_lower()] = values } // body mut body := []byte{} if length := h.get(.content_length) { n := length.int() if n > 0 { body = []byte{len: n} mut count := 0 for count < body.len { count += reader.read(mut body[count..]) or { break } } } } h.free() return http.Request{ method: method url: target.str() headers: headers lheaders: lheaders data: body.bytestr() version: version } } fn parse_request_line(s string) ?(http.Method, urllib.URL, http.Version) { words := s.split(' ') if words.len != 3 { return error('malformed request line') } method := http.method_from_str(words[0]) target := urllib.parse(words[1]) ? version := http.version_from_str(words[2]) if version == .unknown { return error('unsupported version') } return method, target, version } fn parse_header(s string) ?(string, string) { if !s.contains(':') { return error('missing colon in header') } words := s.split_nth(':', 2) // TODO: parse quoted text according to the RFC return words[0], words[1].trim_left(' \t') } // Parse URL encoded key=value&key=value forms fn parse_form(body string) map[string]string { words := body.split('&') mut form := map[string]string{} for word in words { kv := word.split_nth('=', 2) if kv.len != 2 { continue } key := urllib.query_unescape(kv[0]) or { continue } val := urllib.query_unescape(kv[1]) or { continue } form[key] = val } return form // } // todo: parse form-data and application/json // ... } fn parse_multipart_form(body string, boundary string) (map[string]string, map[string][]FileData) { sections := body.split(boundary) fields := sections[1..sections.len - 1] mut form := map[string]string{} mut files := map[string][]FileData{} for field in fields { // TODO: do not split into lines; do same parsing for HTTP body lines := field.split_into_lines()[1..] disposition := parse_disposition(lines[0]) // Grab everything between the double quotes name := disposition['name'] or { continue } // Parse files // TODO: filename* if 'filename' in disposition { filename := disposition['filename'] // Parse Content-Type header if lines.len == 1 || !lines[1].to_lower().starts_with('content-type:') { continue } mut ct := lines[1].split_nth(':', 2)[1] ct = ct.trim_left(' \t') data := lines_to_string(field.len, lines, 3, lines.len - 1) files[name] << FileData{ filename: filename content_type: ct data: data } continue } data := lines_to_string(field.len, lines, 2, lines.len - 1) form[name] = data } return form, files } // Parse the Content-Disposition header of a multipart form // Returns a map of the key="value" pairs // Example: parse_disposition('Content-Disposition: form-data; name="a"; filename="b"') == {'name': 'a', 'filename': 'b'} fn parse_disposition(line string) map[string]string { mut data := map[string]string{} for word in line.split(';') { kv := word.split_nth('=', 2) if kv.len != 2 { continue } key, value := kv[0].to_lower().trim_left(' \t'), kv[1] if value.starts_with('"') && value.ends_with('"') { data[key] = value[1..value.len - 1] } else { data[key] = value } } return data } [manualfree] fn lines_to_string(len int, lines []string, start int, end int) string { mut sb := strings.new_builder(len) for i in start .. end { sb.writeln(lines[i]) } res := sb.str() unsafe { sb.free() } return res }