#include "rotord.h"
/*
ultimately- audio analysis request will spawn a task - there will be another call that will check progress
audio analysis will be saved - to a file? into a db?
for now - dump analysis into the http request
architecture - running rendering process
main vamp library segmenter, beat detector
http://127.0.0.1:9000/vamp/qm-vamp-plugins/qm-segmenter/01.wav
Running plugin: "qm-segmenter"...
Using block size = 26460, step size = 8820
Plugin accepts 1 -> 1 channel(s)
Sound file has 2 (will mix/augment if necessary)
Output is: "segmentation"
Done
./rotord: symbol lookup error: /usr/local/lib/vamp/qm-vamp-plugins.so: undefined symbol: clapack_dgetrf
http://www.codeproject.com/Articles/252827/Learning-Poco-A-simple-HTTP-server
next:
load a movie and retreive frames
save a movie
how do we deal with frames in libavcodec - can we request a frame by number
how do we deal with resolution
*/
RotorRequestHandler::RotorRequestHandler(const std::string& format): _format(format){
}
void RotorRequestHandler::handleRequest(HTTPServerRequest& request,HTTPServerResponse& response) {
Timestamp now;
std::string dt(DateTimeFormatter::format(now, _format));
response.setChunkedTransferEncoding(true);
response.setContentType("text/html");
std::ostream& ostr = response.send();
ostr << "RotorServer powered by "
"POCO C++ Libraries";
ostr << "";
ostr << "";
ostr << dt;
ostr << "
";
}
AudioAnalyserHandler::AudioAnalyserHandler(const vampHost::Settings& _settings): settings(_settings){
}
void AudioAnalyserHandler::handleRequest(HTTPServerRequest& request,HTTPServerResponse& response) {
response.setChunkedTransferEncoding(true);
response.setContentType("text/html");
//string audioData=vampHost::runPlugin();
std::ostream& ostr = response.send();
ostr << "RotorServer powered by "
"POCO C++ Libraries";
ostr << "";
ostr << "";
vampHost::runPlugin("",settings.soname,settings.filtername, "",0, settings.inputFile, ostr,true);
ostr << "
";
}
RenderContextHandler::RenderContextHandler(const std::string _content,const HTTPServerResponse::HTTPStatus _status){
content=_content;
status=_status;
}
void RenderContextHandler::handleRequest(HTTPServerRequest& request,HTTPServerResponse& response) {
response.setChunkedTransferEncoding(true);
response.setContentType("text/html");
response.setStatus(status);
std::ostream& ostr = response.send();
ostr << "\n";
ostr << content;
}
HTTPRequestHandler* RotorRequestHandlerFactory::createRequestHandler(const HTTPServerRequest& request){
Application& app = Application::instance();
Poco::URI theuri=Poco::URI(request.getURI());
std::vector command;
theuri.getPathSegments(command);
app.logger().information(request.clientAddress().toString()+" "+request.getMethod());
string content="";
HTTPResponse::HTTPStatus status=HTTPResponse::HTTP_BAD_REQUEST; //by default
/*
if (segments.size() == 0) {
return new RotorRequestHandler(_format);
}
else if (segments[0]=="vamp"&&segments.size()>3) {
// vamp/plugin/filter/filename
// how do deal with error condition?
//Settings(string _so="",string _filter="",string _id="",string _input="");
return new AudioAnalyserHandler(vampHost::Settings(segments[1],segments[2],segments[3]));
//string audioData=runPlugin(string myname, string soname, string id,
// string output, int outputNo, string wavname,
// string outfilename, bool useFrames);
return 0;
}
else if (segments[0]=="new") {
// create a new render context
return 0;
}
else {
return 0;
}
*/
//at this point we are within app
//making a new contexthandler?
//how will this have access to the thread that it refers to
//how will messages be passed
//we need to do testing etc here and
//what does the handler do?
//it gets passed the response- gets to set response code
if (command.size()) {
if (command[0]=="new") {
if (request.getMethod()=="GET") {
string sID=idGen.createOne().toString(); //create() seems to cause problems
//Creates a new time-based UUID, using the MAC address of one of the system's ethernet adapters.
//Throws a SystemException if no MAC address can be obtained.
//
//seems to hang, to me
cerr << "Rotor: starting thread "<< sID << endl;
manager.start(new Rotor::Render_context(sID));
content=""+sID+"\n";
status=HTTPResponse::HTTP_OK;
}
}
else if (command[0]=="list") {
if (request.getMethod()=="GET") {
//std::list < Poco::AutoPtr < Poco::Task > >::iterator it;
//it=manager.taskList().begin();
//for (it=manager.taskList().begin();it !=manager.taskList().end();++it) {
//content+=""+(*it)->name()+"\n";
//}
//massive problems making an iterator for the tasklist, the above crashes
//solution: auto type range-based for-loop
//this is c++11 specific but works
for (auto& task: manager.taskList()) { //c++11
content+=""+task->name()+" \n";
}
status=HTTPResponse::HTTP_OK;
}
}
else if (command[0]=="styles") {
//eventually retrieve from sql;
//a bit of weirdness here: prefer to just get whole file to a string.
if (request.getMethod()=="GET") {
std::vector styles = {"style01.xml","style02.xml" }; //c++11 STL initialiser list
for (auto &style: styles) {
Poco::File f=Poco::File(style);
if (f.exists()) {
Poco::FileInputStream file(style);
string s="";
while (!file.eof()) {
content +=s;
file >> s;
content +=" ";
}
content +="\n";
}
}
status=HTTPResponse::HTTP_OK;
}
}
else {
bool found=false;
for (auto& task: manager.taskList()) { //c++11
if(task->name()==command[0]) {
//valid session command
found=true;
if (command.size()==1) {
//just invoking sID
if (request.getMethod()=="DELETE") {
task->cancel();
content="1\n";
status=HTTPResponse::HTTP_OK;
}
else {
content="Rotor: render context invoked with no command\n";
}
}
else { //session modifier command- to be passed to render context
//some commands need to return error codes
//ie where the audio file isn't found
//on the other hand, some commands need to know state of the renderer?
std::string s;
std::ostringstream os;
os< sc; //method,id,command1,{command2,}{body}
sc.push_back(request.getMethod());
for (auto& i: command){
sc.push_back(i);
}
sc.push_back(s);
Rotor::Command_response response=((Poco::AutoPtr)task)->session_command(sc);
content=response.description;
status=response.status;
}
}
}
if (!found) {
status=HTTPResponse::HTTP_NOT_FOUND;
content="Rotor: render context not found\n";
}
}
}
else {
content="Rotor: empty request";
}
return new RenderContextHandler(content, status);
}
RotorServer::RotorServer(): _helpRequested(false)
{
}
RotorServer::~RotorServer()
{
}
void RotorServer::initialize(Application& self){
loadConfiguration();
ServerApplication::initialize(self);
}
void RotorServer::uninitialize(){
ServerApplication::uninitialize();
}
void RotorServer::defineOptions(OptionSet& options) {
ServerApplication::defineOptions(options);
options.addOption(
Option("help", "h", "display argument help information")
.required(false)
.repeatable(false)
.callback(OptionCallback(this, &RotorServer::handleHelp)
)
);
}
void RotorServer::handleHelp(const std::string& name, const std::string& value){
HelpFormatter helpFormatter(options());
helpFormatter.setCommand(commandName());
helpFormatter.setUsage("OPTIONS");
helpFormatter.setHeader(
"Rotor");
helpFormatter.format(std::cout);
stopOptionsProcessing();
_helpRequested = true;
}
int RotorServer::main(const std::vector& args){
if (!_helpRequested) {
unsigned short port = (unsigned short) config().getInt("port", 9980);
std::string format(config().getString("format", DateTimeFormat::SORTABLE_FORMAT));
ServerSocket svs(port);
HTTPServer srv(new RotorRequestHandlerFactory(),svs, new HTTPServerParams);
srv.start();
waitForTerminationRequest();
srv.stop();
}
return Application::EXIT_OK;
}