#pragma once #include namespace nall { namespace HTTP { struct Response : Message { using type = Response; Response() = default; Response(const Request& request) { setRequest(request); } explicit operator bool() const { return responseType() != 0; } auto operator()(unsigned responseType) -> type& { return setResponseType(responseType); } inline auto head(const function& callback) const -> bool override; inline auto setHead() -> bool override; inline auto body(const function& callback) const -> bool override; inline auto setBody() -> bool override; auto request() const -> const Request* { return _request; } auto setRequest(const Request& value) -> type& { _request = &value; return *this; } auto responseType() const -> unsigned { return _responseType; } auto setResponseType(unsigned value) -> type& { _responseType = value; return *this; } auto hasData() const -> bool { return (bool)_data; } auto data() const -> const vector& { return _data; } inline auto setData(const vector& value) -> type&; auto hasFile() const -> bool { return (bool)_file; } auto file() const -> const string& { return _file; } inline auto setFile(const string& value) -> type&; auto hasText() const -> bool { return (bool)_text; } auto text() const -> const string& { return _text; } inline auto setText(const string& value) -> type&; inline auto hasBody() const -> bool; inline auto findContentLength() const -> unsigned; inline auto findContentType() const -> string; inline auto findContentType(const string& suffix) const -> string; inline auto findResponseType() const -> string; inline auto setFileETag() -> void; const Request* _request = nullptr; unsigned _responseType = 0; vector _data; string _file; string _text; }; auto Response::head(const function& callback) const -> bool { if(!callback) return false; string output; if(auto request = this->request()) { if(auto eTag = header["ETag"]) { if(eTag.value() == request->header["If-None-Match"].value()) { output.append("HTTP/1.1 304 Not Modified\r\n"); output.append("Connection: close\r\n"); output.append("\r\n"); return callback(output.binary(), output.size()); } } } output.append("HTTP/1.1 ", findResponseType(), "\r\n"); for(auto& variable : header) { output.append(variable.name(), ": ", variable.value(), "\r\n"); } if(hasBody()) { if(!header["Content-Length"] && !header["Transfer-Encoding"].value().iequals("chunked")) { output.append("Content-Length: ", findContentLength(), "\r\n"); } if(!header["Content-Type"]) { output.append("Content-Type: ", findContentType(), "\r\n"); } } if(!header["Connection"]) { output.append("Connection: close\r\n"); } output.append("\r\n"); return callback(output.binary(), output.size()); } auto Response::setHead() -> bool { lstring headers = _head.split("\n"); string response = headers.takeLeft().rtrim("\r"); if(response.ibeginsWith("HTTP/1.0 ")) response.iltrim("HTTP/1.0 ", 1L); else if(response.ibeginsWith("HTTP/1.1 ")) response.iltrim("HTTP/1.1 ", 1L); else return false; setResponseType(natural(response)); for(auto& header : headers) { if(header.beginsWith(" ") || header.beginsWith("\t")) continue; lstring variable = header.split(":", 1L).strip(); if(variable.size() != 2) continue; this->header.append(variable[0], variable[1]); } return true; } auto Response::body(const function& callback) const -> bool { if(!callback) return false; if(!hasBody()) return true; bool chunked = header["Transfer-Encoding"].value() == "chunked"; if(chunked) { string prefix = {hex(findContentLength()), "\r\n"}; if(!callback(prefix.binary(), prefix.size())) return false; } if(_body) { if(!callback(_body.binary(), _body.size())) return false; } else if(hasData()) { if(!callback(data().data(), data().size())) return false; } else if(hasFile()) { filemap map(file(), filemap::mode::read); if(!callback(map.data(), map.size())) return false; } else if(hasText()) { if(!callback(text().binary(), text().size())) return false; } else { string response = findResponseType(); if(!callback(response.binary(), response.size())) return false; } if(chunked) { string suffix = {"\r\n0\r\n\r\n"}; if(!callback(suffix.binary(), suffix.size())) return false; } return true; } auto Response::setBody() -> bool { return true; } auto Response::hasBody() const -> bool { if(auto request = this->request()) { if(request->requestType() == Request::RequestType::Head) return false; } if(responseType() == 301) return false; if(responseType() == 302) return false; if(responseType() == 303) return false; if(responseType() == 304) return false; if(responseType() == 307) return false; return true; } auto Response::findContentLength() const -> unsigned { if(auto contentLength = header["Content-Length"]) return contentLength.value().natural(); if(_body) return _body.size(); if(hasData()) return data().size(); if(hasFile()) return file::size(file()); if(hasText()) return text().size(); return findResponseType().size(); } auto Response::findContentType() const -> string { if(auto contentType = header["Content-Type"]) return contentType.value(); if(hasData()) return "application/octet-stream"; if(hasFile()) return findContentType(suffixname(file())); return "text/html; charset=utf-8"; } auto Response::findContentType(const string& s) const -> string { if(s == ".7z" ) return "application/x-7z-compressed"; if(s == ".avi" ) return "video/avi"; if(s == ".bml" ) return "text/plain; charset=utf-8"; if(s == ".bz2" ) return "application/x-bzip2"; if(s == ".css" ) return "text/css; charset=utf-8"; if(s == ".gif" ) return "image/gif"; if(s == ".gz" ) return "application/gzip"; if(s == ".htm" ) return "text/html; charset=utf-8"; if(s == ".html") return "text/html; charset=utf-8"; if(s == ".jpg" ) return "image/jpeg"; if(s == ".jpeg") return "image/jpeg"; if(s == ".js" ) return "application/javascript"; if(s == ".mka" ) return "audio/x-matroska"; if(s == ".mkv" ) return "video/x-matroska"; if(s == ".mp3" ) return "audio/mpeg"; if(s == ".mp4" ) return "video/mp4"; if(s == ".mpeg") return "video/mpeg"; if(s == ".mpg" ) return "video/mpeg"; if(s == ".ogg" ) return "audio/ogg"; if(s == ".pdf" ) return "application/pdf"; if(s == ".png" ) return "image/png"; if(s == ".rar" ) return "application/x-rar-compressed"; if(s == ".svg" ) return "image/svg+xml"; if(s == ".tar" ) return "application/x-tar"; if(s == ".txt" ) return "text/plain; charset=utf-8"; if(s == ".wav" ) return "audio/vnd.wave"; if(s == ".webm") return "video/webm"; if(s == ".xml" ) return "text/xml; charset=utf-8"; if(s == ".xz" ) return "application/x-xz"; if(s == ".zip" ) return "application/zip"; return "application/octet-stream"; //binary } auto Response::findResponseType() const -> string { switch(responseType()) { case 200: return "200 OK"; case 301: return "301 Moved Permanently"; case 302: return "302 Found"; case 303: return "303 See Other"; case 304: return "304 Not Modified"; case 307: return "307 Temporary Redirect"; case 400: return "400 Bad Request"; case 403: return "403 Forbidden"; case 404: return "404 Not Found"; case 500: return "500 Internal Server Error"; case 501: return "501 Not Implemented"; case 503: return "503 Service Unavailable"; } return "501 Not Implemented"; } auto Response::setData(const vector& value) -> type& { _data = value; header.assign("Content-Length", value.size()); return *this; } auto Response::setFile(const string& value) -> type& { _file = value; string eTag = {"\"", string::datetime(file::timestamp(value, file::time::modify)), "\""}; header.assign("Content-Length", file::size(value)); header.assign("Cache-Control", "public"); header.assign("ETag", eTag); return *this; } auto Response::setText(const string& value) -> type& { _text = value; header.assign("Content-Length", value.size()); return *this; } }}