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I'm trying to do the following: receive video stream using gstreamer and process it with opencv. I've found few solutions, and one of them is to write video into (from gstreamer) fifo and then read it using opencv. (OPTION3 here MJPEG streaming and decoding). The problem is I cant open pipe. cvCreateFileCapture just never returns. Here is a part code I wrote:

if(mkfifo("fifo.avi", S_IRUSR| S_IWUSR) == -1)
{
    cout<<"Cant create fifo"<<endl;
    cout<<errno<<endl;
}

loop = g_main_loop_new(NULL, false);

fsink = gst_element_factory_make("filesink", "fsink");
g_object_set(G_OBJECT(fsink), "location", "fifo.avi", NULL);

playbin = gst_element_factory_make("playbin2", "play");    
g_object_set(G_OBJECT(playbin), "uri", uri.c_str(), NULL);
g_object_set(G_OBJECT(playbin), "video-sink", fsink, NULL);

bus = gst_pipeline_get_bus(GST_PIPELINE(playbin));
gst_bus_add_signal_watch(bus);

g_signal_connect(bus, "message::buffering", G_CALLBACK(&set_playbin_state), playbin);
gst_object_unref(bus);

cvNamedWindow("output", CV_WINDOW_AUTOSIZE);
capture = cvCreateFileCapture("fifo.avi");

The program stacks in the last line. PS: I'm using opencv 2.3.1.

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2 Answers 2

up vote 6 down vote accepted

So. After searching a while, I've found a solution, which involves retrieving data from buffer. So the idea is to create playbin and set appsink as "video-sink". Here is code sample:

cout<<"Creating appsink"<<endl;
appsink = gst_element_factory_make("appsink", "asink");
gst_app_sink_set_emit_signals((GstAppSink*)appsink, true);
gst_app_sink_set_drop((GstAppSink*)appsink, true);
gst_app_sink_set_max_buffers((GstAppSink*)appsink, 1);

//creating and initialising pipeline

g_object_set(G_OBJECT(playbin), "video-sink", appsink, NULL);

g_signal_connect(appsink, "new-buffer", G_CALLBACK(DisplayFrame), (gpointer) mark);

//callback function looks like this

gboolean Core::DisplayFrame(GstAppSink *fks, gpointer mark)
{
static bool init = false;
static IplImage *frame;
GstBuffer* buf;
Mark* mk = (Mark*) mark;

if(!init)
{
    init = true;
    frame = cvCreateImage(cvSize(mk->frame_w, mk->frame_h), IPL_DEPTH_8U, 1);
}
buf = gst_app_sink_pull_buffer(fks);
frame->imageData = (char*)GST_BUFFER_DATA(buf);

ProcessFrame(frame);
gst_buffer_unref(buf);
return true;
}

this works. PS. There's a lot of info about this method, but I spent a lot of time searching for it. So I decided to post it here in order to provide at least some keywords to search.

UPDATE. And a bit more information about connecting gstreamer and opencv. It's about converting buffer to iplimage now. First of all, we need to receive rgb buffer, to make conversion as easy, as possible. In order to do this we'll replace appsinks with appsink, connected to ffmpegcolorspace

cout<<"Creating appsink"<<endl;
appsink = gst_element_factory_make("appsink", "asink");
gst_app_sink_set_emit_signals((GstAppSink*)appsink, true);
gst_app_sink_set_drop((GstAppSink*)appsink, true);
gst_app_sink_set_max_buffers((GstAppSink*)appsink, 1);
csp = gst_element_factory_make("ffmpegcolorspace", "csp");
sinkpipe = gst_pipeline_new("sinkp");
gst_bin_add_many(GST_BIN(sinkpipe), csp, appsink, NULL);
gst_element_link_filtered(csp, appsink, gst_caps_new_simple("video/x-raw-rgb", NULL));
pad = gst_element_get_static_pad(csp, "sink");
gst_element_add_pad(sinkpipe, gst_ghost_pad_new("ghost", pad));
g_object_unref(pad);

//...

g_object_set(G_OBJECT(playbin), "video-sink", sinkpipe, NULL);

//...

g_signal_connect(appsink, "new-buffer", G_CALLBACK(GetFrame), (gpointer) mark);

//...

//caps_struct can be retrieved via writing data probe
//search for it in streamer manual

cout<<"Getting frame resolution"<<endl;
gst_structure_get_int(caps_struct, "width", &(mark->frame_w));
gst_structure_get_int(caps_struct, "height", &(mark->frame_h));
gst_structure_get_int(caps_struct, "depth", &depth);

mark->GeneratePoints();
frame = cvCreateImage(cvSize(mark->frame_w, mark->frame_h), depth/3, 3);


//callback function

gboolean Core::GetFrame(GstAppSink *fks, gpointer frame)
{

IplImage* frame_temp = frame
IplImage* frame_temp_two = cvCloneImage(frame_temp);

GstBuffer* buf;
buf = gst_app_sink_pull_buffer(fks);
frame_temp_two->imageData = (char*) GST_BUFFER_DATA(buf);
cvConvertImage(frame_temp_two, frame_temp, CV_CVTIMG_SWAP_RB);
ProcessFrame(frame_temp);
gst_buffer_unref(buf);
return true;
}

I hope this will help somebody.

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Here is my complete source code solution for Gstreamer 1.4.0 and OpenCV 2.4.9.

It uses gst_parse_launch() to parse normal command line that you would give to gst-launch. Gstreamer pipeline converts frames to RGB888 format before feeding them to OpenCV so that conversion is as easy as possible.

OpenCV frame processing is not done in new_sample() callback but it only grabs the frame from gstreamer and push it to queue which then will be consumed in main thread. This way we mat call e.g. imshow() from OpenCV to actually render image to screen.

~150 lines... by removing debug prints etc. could be reduced to <100 lines of code.

Probably one should add there thread synchronization around deque read / write

#include <gst/gst.h>
#include <gst/app/gstappsink.h>
#include <stdlib.h>

#include "opencv2/opencv.hpp"
using namespace cv;

// TODO: use synchronized deque
std::deque<Mat> frameQueue;

GstFlowReturn
new_preroll(GstAppSink *appsink, gpointer data) {
  g_print ("Got preroll!\n");
  return GST_FLOW_OK;
}

GstFlowReturn
new_sample(GstAppSink *appsink, gpointer data) {
  static int framecount = 0;
  framecount++;

  GstSample *sample = gst_app_sink_pull_sample(appsink);
  GstCaps *caps = gst_sample_get_caps(sample);
  GstBuffer *buffer = gst_sample_get_buffer(sample);
  const GstStructure *info = gst_sample_get_info(sample);

  // ---- Read frame and convert to opencv format ---------------

  GstMapInfo map;
  gst_buffer_map (buffer, &map, GST_MAP_READ);

  // convert gstreamer data to OpenCV Mat, you could actually
  // resolve height / width from caps...
  Mat frame(Size(320, 240), CV_8UC3, (char*)map.data, Mat::AUTO_STEP);
  int frameSize = map.size;

  // TODO: synchronize this....
  frameQueue.push_back(frame);

  gst_buffer_unmap(buffer, &map);

  // ------------------------------------------------------------

  // print dot every 30 frames
  if (framecount%30 == 0) {
    g_print (".");
  }

  // show caps on first frame
  if (framecount == 1) {
    g_print ("%s\n", gst_caps_to_string(caps));
  }

  gst_sample_unref (sample);
  return GST_FLOW_OK;
}

static gboolean
my_bus_callback (GstBus *bus, GstMessage *message, gpointer data) {
  g_print ("Got %s message\n", GST_MESSAGE_TYPE_NAME (message));
  switch (GST_MESSAGE_TYPE (message)) {
    case GST_MESSAGE_ERROR: {
      GError *err;
      gchar *debug;

      gst_message_parse_error (message, &err, &debug);
      g_print ("Error: %s\n", err->message);
      g_error_free (err);
      g_free (debug);    
      break;
    }
    case GST_MESSAGE_EOS:
      /* end-of-stream */
      break;
    default:
      /* unhandled message */
      break;
  }
  /* we want to be notified again the next time there is a message
   * on the bus, so returning TRUE (FALSE means we want to stop watching
   * for messages on the bus and our callback should not be called again)
   */
  return TRUE;
}

int
main (int argc, char *argv[])
{
  GError *error = NULL;

  gst_init (&argc, &argv);

  gchar *descr = g_strdup(
    "videotestsrc  pattern=ball ! "
    "video/x-raw,format=RGB ! "
    "videoconvert ! "
    "appsink name=sink sync=true"
  );
  GstElement *pipeline = gst_parse_launch (descr, &error);

  if (error != NULL) {
    g_print ("could not construct pipeline: %s\n", error->message);
    g_error_free (error);
    exit (-1);
  }

  /* get sink */
  GstElement *sink = gst_bin_get_by_name (GST_BIN (pipeline), "sink");

  gst_app_sink_set_emit_signals((GstAppSink*)sink, true);
  gst_app_sink_set_drop((GstAppSink*)sink, true);
  gst_app_sink_set_max_buffers((GstAppSink*)sink, 1);
  GstAppSinkCallbacks callbacks = { NULL, new_preroll, new_sample };
  gst_app_sink_set_callbacks (GST_APP_SINK(sink), &callbacks, NULL, NULL);

  GstBus *bus;
  guint bus_watch_id;
  bus = gst_pipeline_get_bus (GST_PIPELINE (pipeline));
  bus_watch_id = gst_bus_add_watch (bus, my_bus_callback, NULL);
  gst_object_unref (bus);

  gst_element_set_state (GST_ELEMENT (pipeline), GST_STATE_PLAYING);

  namedWindow("edges",1);
  while(1) {
    g_main_iteration(false);

      // TODO: synchronize...
    if (frameQueue.size() > 0) {
      // this lags pretty badly even when grabbing frames from webcam
      Mat frame = frameQueue.front();
      Mat edges;
      cvtColor(frame, edges, CV_RGB2GRAY);
      GaussianBlur(edges, edges, Size(7,7), 1.5, 1.5);
      Canny(edges, edges, 0, 30, 3);
      imshow("edges", edges);
      cv::waitKey(30);
      frameQueue.clear();
    }
  }  

  gst_element_set_state (GST_ELEMENT (pipeline), GST_STATE_NULL);
  gst_object_unref (GST_OBJECT (pipeline));

  return 0;  
}

To compile on OSX / Linux make file like this should do:

GST_FLAGS=$(shell pkg-config --cflags --libs gstreamer-gl-1.0 gstreamer-tag-1.0 gstreamer-net-1.0 gstreamer-sdp-1.0 \
  gstreamer-1.0 gstreamer-allocators-1.0 gstreamer-insertbin-1.0 gstreamer-plugins-base-1.0 \
  gstreamer-codecparsers-1.0 gstreamer-base-1.0 gstreamer-app-1.0 gstreamer-check-1.0 \
  gstreamer-controller-1.0 gstreamer-video-1.0 gstreamer-fft-1.0 gstreamer-mpegts-1.0 \
  gstreamer-pbutils-1.0 gstreamer-rtp-1.0 gstreamer-rtsp-1.0 \
  gstreamer-riff-1.0 gstreamer-audio-1.0 gstreamer-plugins-bad-1.0 opencv)

OPENCV_FLAGS=$(shell pkg-config --cflags --libs opencv)

all: gst_opencv

gst_opencv: gst_opencv
    g++ $(GST_FLAGS) $(OPENCV_FLAGS) gst_opencv -o gst_opencv

clean:
    rm -f gst_opencv
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