/// \file http_parser.cpp /// Holds all code for the HTTP namespace. #include "http_parser.h" /// This constructor creates an empty HTTP::Parser, ready for use for either reading or writing. /// All this constructor does is call HTTP::Parser::Clean(). HTTP::Parser::Parser(){Clean();} /// Completely re-initializes the HTTP::Parser, leaving it ready for either reading or writing usage. void HTTP::Parser::Clean(){ seenHeaders = false; seenReq = false; method = "GET"; url = "/"; protocol = "HTTP/1.1"; body = ""; length = 0; HTTPbuffer = ""; headers.clear(); vars.clear(); } /// Re-initializes the HTTP::Parser, leaving the internal data buffer alone, then tries to parse a new request or response. /// First does the same as HTTP::Parser::Clean(), but does not clear the internal data buffer. /// This function then calls the HTTP::Parser::parse() function, and returns that functions return value. bool HTTP::Parser::CleanForNext(){ seenHeaders = false; seenReq = false; method = "GET"; url = "/"; protocol = "HTTP/1.1"; body = ""; length = 0; headers.clear(); vars.clear(); return parse(); } /// Returns a string containing a valid HTTP 1.0 or 1.1 request, ready for sending. /// The request is build from internal variables set before this call is made. /// To be precise, method, url, protocol, headers and the internal data buffer are used, /// where the internal data buffer is used as the body of the request. /// This means you cannot mix receiving and sending, because the body would get corrupted. /// \return A string containing a valid HTTP 1.0 or 1.1 request, ready for sending. std::string HTTP::Parser::BuildRequest(){ /// \todo Include GET/POST variable parsing? std::map::iterator it; std::string tmp = method+" "+url+" "+protocol+"\n"; for (it=headers.begin(); it != headers.end(); it++){ tmp += (*it).first + ": " + (*it).second + "\n"; } tmp += "\n"; tmp += HTTPbuffer; return tmp; } /// Returns a string containing a valid HTTP 1.0 or 1.1 response, ready for sending. /// The response is partly build from internal variables set before this call is made. /// To be precise, protocol, headers and the internal data buffer are used, /// where the internal data buffer is used as the body of the response. /// This means you cannot mix receiving and sending, because the body would get corrupted. /// \param code The HTTP response code. Usually you want 200. /// \param message The HTTP response message. Usually you want "OK". /// \return A string containing a valid HTTP 1.0 or 1.1 response, ready for sending. std::string HTTP::Parser::BuildResponse(std::string code, std::string message){ /// \todo Include GET/POST variable parsing? std::map::iterator it; std::string tmp = protocol+" "+code+" "+message+"\n"; for (it=headers.begin(); it != headers.end(); it++){ tmp += (*it).first + ": " + (*it).second + "\n"; } tmp += "\n"; tmp += HTTPbuffer; return tmp; } /// Trims any whitespace at the front or back of the string. /// Used when getting/setting headers. /// \param s The string to trim. The string itself will be changed, not returned. void HTTP::Parser::Trim(std::string & s){ size_t startpos = s.find_first_not_of(" \t"); size_t endpos = s.find_last_not_of(" \t"); if ((std::string::npos == startpos) || (std::string::npos == endpos)){s = "";}else{s = s.substr(startpos, endpos-startpos+1);} } /// Function that sets the body of a response or request, along with the correct Content-Length header. /// \param s The string to set the body to. void HTTP::Parser::SetBody(std::string s){ HTTPbuffer = s; SetHeader("Content-Length", s.length()); } /// Function that sets the body of a response or request, along with the correct Content-Length header. /// \param buffer The buffer data to set the body to. /// \param len Length of the buffer data. void HTTP::Parser::SetBody(char * buffer, int len){ HTTPbuffer = ""; HTTPbuffer.append(buffer, len); SetHeader("Content-Length", len); } /// Returns header i, if set. std::string HTTP::Parser::GetHeader(std::string i){return headers[i];} /// Returns POST variable i, if set. std::string HTTP::Parser::GetVar(std::string i){return vars[i];} /// Sets header i to string value v. void HTTP::Parser::SetHeader(std::string i, std::string v){ Trim(i); Trim(v); headers[i] = v; } /// Sets header i to integer value v. void HTTP::Parser::SetHeader(std::string i, int v){ Trim(i); char val[128]; sprintf(val, "%i", v); headers[i] = val; } /// Sets POST variable i to string value v. void HTTP::Parser::SetVar(std::string i, std::string v){ Trim(i); Trim(v); vars[i] = v; } /// Attempt to read a whole HTTP request or response from Socket::Connection. /// \param sock The socket to use. /// \param nonblock When true, will not block even if the socket is blocking. /// \return True of a whole request or response was read, false otherwise. bool HTTP::Parser::Read(Socket::Connection & sock, bool nonblock){ if (nonblock && (sock.ready() < 1)){return parse();} sock.read(HTTPbuffer); return parse(); }//HTTPReader::ReadSocket /// Reads a full set of HTTP responses/requests from file F. /// \return Always false. Use HTTP::Parser::CleanForNext() to parse the contents of the file. bool HTTP::Parser::Read(FILE * F){ //returned true als hele http packet gelezen is int b = 1; char buffer[500]; while (b > 0){ b = fread(buffer, 1, 500, F); HTTPbuffer.append(buffer, b); } return false; }//HTTPReader::ReadSocket /// Attempt to read a whole HTTP response or request from the internal data buffer. /// If succesful, fills its own fields with the proper data and removes the response/request /// from the internal data buffer. /// \return True on success, false otherwise. bool HTTP::Parser::parse(){ size_t f; std::string tmpA, tmpB, tmpC; while (HTTPbuffer != ""){ if (!seenHeaders){ f = HTTPbuffer.find('\n'); if (f == std::string::npos) return false; tmpA = HTTPbuffer.substr(0, f); HTTPbuffer.erase(0, f+1); while (tmpA.find('\r') != std::string::npos){tmpA.erase(tmpA.find('\r'));} if (!seenReq){ seenReq = true; f = tmpA.find(' '); if (f != std::string::npos){method = tmpA.substr(0, f); tmpA.erase(0, f+1);} f = tmpA.find(' '); if (f != std::string::npos){url = tmpA.substr(0, f); tmpA.erase(0, f+1);} f = tmpA.find(' '); if (f != std::string::npos){protocol = tmpA.substr(0, f); tmpA.erase(0, f+1);} /// \todo Include GET variable parsing? }else{ if (tmpA.size() == 0){ seenHeaders = true; if (GetHeader("Content-Length") != ""){length = atoi(GetHeader("Content-Length").c_str());} }else{ f = tmpA.find(':'); if (f == std::string::npos) continue; tmpB = tmpA.substr(0, f); tmpC = tmpA.substr(f+1); SetHeader(tmpB, tmpC); } } } if (seenHeaders){ if (length > 0){ /// \todo Include POST variable parsing? if (HTTPbuffer.length() >= length){ body = HTTPbuffer.substr(0, length); HTTPbuffer.erase(0, length); return true; }else{ return false; } }else{ return true; } } } return false; //we should never get here... }//HTTPReader::parse /// Sends data as response to conn. /// The response is automatically first build using HTTP::Parser::BuildResponse(). /// \param conn The Socket::Connection to send the response over. /// \param code The HTTP response code. Usually you want 200. /// \param message The HTTP response message. Usually you want "OK". void HTTP::Parser::SendResponse(Socket::Connection & conn, std::string code, std::string message){ std::string tmp = BuildResponse(code, message); conn.write(tmp); } /// Sends data as HTTP/1.1 bodypart to conn. /// HTTP/1.1 chunked encoding is automatically applied if needed. /// \param conn The Socket::Connection to send the part over. /// \param buffer The buffer to send. /// \param len The length of the buffer. void HTTP::Parser::SendBodyPart(Socket::Connection & conn, char * buffer, int len){ std::string tmp; tmp.append(buffer, len); SendBodyPart(conn, tmp); } /// Sends data as HTTP/1.1 bodypart to conn. /// HTTP/1.1 chunked encoding is automatically applied if needed. /// \param conn The Socket::Connection to send the part over. /// \param bodypart The data to send. void HTTP::Parser::SendBodyPart(Socket::Connection & conn, std::string bodypart){ if (protocol == "HTTP/1.1"){ static char len[10]; int sizelen; sizelen = snprintf(len, 10, "%x\r\n", (unsigned int)bodypart.size()); conn.write(len, sizelen); conn.write(bodypart); conn.write(len+sizelen-2, 2); }else{ conn.write(bodypart); } }