I realize this is an old question, but I recently encountered this problem, so while this probably won't help the OP, I'll put down an answer for posterity's sake.
The short answer:
AVFormatContext fields for
max_analyze_duration to something smaller than the default, i.e.
std::string url_path = "...";
AVFormatContext *format_ctx = NULL;
avformat_open_input(&format_ctx, url_path.c_str(), NULL, NULL);
format_ctx->max_analyze_duration = 50000;
For the longer answer:
avformat_find_stream_info reads from the input data stream and tries to fill out the
AVFormatContext based on the packets it sees. It can do this for up to the
max_analyze_duration value as set in the
For say, local video files, it'll generally be very fast, but for network streams this can take a very long time (especially if the stream is damaged). This is where the long wait-times for
avformat_find_stream_info come into play. The default value for
max_analyze_duration is 5000000 (in units of AV_TIME_BASE), meaning that hypothetically,
avformat_find_stream_info can be sampling packets from the input stream for up to that duration (IIRC AV_TIME_BASE is equivalent to microseconds, so the default maximum wait time is 5 seconds).
By setting the
max_analyze_duration to something smaller, say 50,000 (~500ms) we force
avformat_find_stream_info to choose what the
AVFormatContext fields are with less information, while limiting the worst-case wait time to something more reasonable. In my experience this hasn't caused for any problems (although this may depend on how your video source is). The
probesize field determines the number of bytes that
avformat_find_stream_info can read from the stream. Note that if you set this value to be too low, you might be not able to get accurate codec information