2014-10-20T04:02:03Z

Video Streaming with Flask

I'm sure by now you know that I have released a book and a couple of videos on Flask in cooperation with O'Reilly Media. While the coverage of the Flask framework in these is fairly complete, there are a small number of features that for one reason or another did not get mentioned much, so I thought it would be a good idea to write articles about them here.

This article is dedicated to streaming, an interesting feature that gives Flask applications the ability to provide large responses efficiently partitioned in small chunks, potentially over a long period of time. To illustrate the topic I'm going to show you how to build a live video streaming server!

NOTE: there is now a follow-up to this article, Flask Video Streaming Revisited, in which I describe some improvements to the streaming server introduced here.

What is Streaming?

Streaming is a technique in which the server provides the response to a request in chunks. I can think of a couple of reasons why this might be useful:

  • Very large responses. Having to assemble a response in memory only to return it to the client can be inefficient for very large responses. An alternative would be to write the response to disk and then return the file with flask.send_file(), but that adds I/O to the mix. Providing the response in small portions is a much better solution, assuming the data can be generated in chunks.
  • Real time data. For some applications a request may need to return data that comes from a real time source. A pretty good example of this is a real time video or audio feed. A lot of security cameras use this technique to stream video to web browsers.

Implementing Streaming With Flask

Flask provides native support for streaming responses through the use of generator functions. A generator is a special function that can be interrupted and resumed. Consider the following function:

def gen():
    yield 1
    yield 2
    yield 3

This is a function that runs in three steps, each returning a value. Describing how generator functions are implemented is outside the scope of this article, but if you are a bit curious the following shell session will give you an idea of how generators are used:

>>> x = gen()
>>> x
<generator object gen at 0x7f06f3059c30>
>>> next(x)
1
>>> next(x)
2
>>> next(x)
3
>>> next(x)
Traceback (most recent call last):
  File "<stdin>", line 1, in <module>
StopIteration

You can see in this simple example that a generator function can return multiple results in sequence. Flask uses this characteristic of generator functions to implement streaming.

The example below shows how using streaming it is possible to generate a large data table, without having to assemble the entire table in memory:

from flask import Response, render_template
from app.models import Stock

def generate_stock_table():
    yield render_template('stock_header.html')
    for stock in Stock.query.all():
        yield render_template('stock_row.html', stock=stock)
    yield render_template('stock_footer.html')

@app.route('/stock-table')
def stock_table():
    return Response(generate_stock_table())

In this example you can see how Flask works with generator functions. A route that returns a streamed response needs to return a Response object that is initialized with the generator function. Flask then takes care of invoking the generator and sending all the partial results as chunks to the client.

For this particular example if you assume Stock.query.all() returns the result of a database query as an iterable, then you can generate a potentially large table one row at a time, so regardless of the number of elements in the query the memory consumption in the Python process will not grow larger and larger due to having to assemble a large response string.

Multipart Responses

The table example above generates a traditional page in small portions, with all the parts concatenated into the final document. This is a good example of how to generate large responses, but something a little bit more exciting is to work with real time data.

An interesting use of streaming is to have each chunk replace the previous one in the page, as this enables streams to "play" or animate in the browser window. With this technique you can have each chunk in the stream be an image, and that gives you a cool video feed that runs in the browser!

The secret to implement in-place updates is to use a multipart response. Multipart responses consist of a header that includes one of the multipart content types, followed by the parts, separated by a boundary marker and each having its own part specific content type.

There are several multipart content types for different needs. For the purpose of having a stream where each part replaces the previous part the multipart/x-mixed-replace content type must be used. To help you get an idea of how this looks, here is the structure of a multipart video stream:

HTTP/1.1 200 OK
Content-Type: multipart/x-mixed-replace; boundary=frame

--frame
Content-Type: image/jpeg

<jpeg data here>
--frame
Content-Type: image/jpeg

<jpeg data here>
...

As you see above, the structure is pretty simple. The main Content-Type header is set to multipart/x-mixed-replace and a boundary string is defined. Then each part is included, prefixed by two dashes and the part boundary string in their own line. The parts have their own Content-Type header, and each part can optionally include a Content-Length header with the length in bytes of the part payload, but at least for images browsers are able to deal with the stream without the length.

Building a Live Video Streaming Server

There's been enough theory in this article, now it is time to build a complete application that streams live video to web browsers.

There are many ways to stream video to browsers, and each method has its benefits and disadvantages. The method that works well with the streaming feature of Flask is to stream a sequence of independent JPEG pictures. This is called Motion JPEG, and is used by many IP security cameras. This method has low latency, but quality is not the best, since JPEG compression is not very efficient for motion video.

Below you can see a surprisingly simple, yet complete web application that can serve a Motion JPEG stream:

#!/usr/bin/env python
from flask import Flask, render_template, Response
from camera import Camera

app = Flask(__name__)

@app.route('/')
def index():
    return render_template('index.html')

def gen(camera):
    while True:
        frame = camera.get_frame()
        yield (b'--frame\r\n'
               b'Content-Type: image/jpeg\r\n\r\n' + frame + b'\r\n')

@app.route('/video_feed')
def video_feed():
    return Response(gen(Camera()),
                    mimetype='multipart/x-mixed-replace; boundary=frame')

if __name__ == '__main__':
    app.run(host='0.0.0.0', debug=True)

This application imports a Camera class that is in charge of providing the sequence of frames. Putting the camera control portion in a separate module is a good idea in this case, this way the web application remains clean, simple and generic.

The application has two routes. The / route serves the main page, which is defined in the index.html template. Below you can see the contents of this template file:

<html>
  <head>
    <title>Video Streaming Demonstration</title>
  </head>
  <body>
    <h1>Video Streaming Demonstration</h1>
    <img src="{{ url_for('video_feed') }}">
  </body>
</html>

This is a simple HTML page with just a heading and an image tag. Note that the image tag's src attribute points to the second route of this application, and this is where the magic happens.

The /video_feed route returns the streaming response. Because this stream returns the images that are to be displayed in the web page, the URL to this route is in the src attribute of the image tag. The browser will automatically keep the image element updated by displaying the stream of JPEG images in it, since multipart responses are supported in most/all browsers (let me know if you find a browser that doesn't like this).

The generator function used in the /video_feed route is called gen(), and takes as an argument an instance of the Camera class. The mimetype argument is set as shown above, with the multipart/x-mixed-replace content type and a boundary set to the string "frame".

The gen() function enters a loop where it continuously returns frames from the camera as response chunks. The function asks the camera to provide a frame by calling the camera.get_frame() method, and then it yields with this frame formatted as a response chunk with a content type of image/jpeg, as shown above.

Obtaining Frames from a Video Camera

Now all that is left is to implement the Camera class, which will have to connect to the camera hardware and download live video frames from it. The nice thing about encapsulating the hardware dependent part of this application in a class is that this class can have different implementations for different people, but the rest of the application remains the same. You can think of this class as a device driver, which provides a uniform implementation regardless of the actual hardware device in use.

The other advantage of having the Camera class separated from the rest of the application is that it is easy to fool the application into thinking there is a camera when in reality there is not, since the camera class can be implemented to emulate a camera without real hardware. In fact, while I was working on this application, the easiest way for me to test the streaming was to do that and not have to worry about the hardware until I had everything else running. Below you can see the simple emulated camera implementation that I used:

from time import time

class Camera(object):
    def __init__(self):
        self.frames = [open(f + '.jpg', 'rb').read() for f in ['1', '2', '3']]

    def get_frame(self):
        return self.frames[int(time()) % 3]

This implementation reads three images from disk called 1.jpg, 2.jpg and 3.jpg and then returns them one after another repeatedly, at a rate of one frame per second. The get_frame() method uses the current time in seconds to determine which of the three frames to return at any given moment. Pretty simple, right?

To run this emulated camera I needed to create the three frames. Using gimp I've made the following images:

Frame 1 Frame 2 Frame 3

Because the camera is emulated, this application runs on any environment, so you can run this right now! I have this application all ready to go on GitHub. If you are familiar with git you can clone it with the following command:

$ git clone https://github.com/miguelgrinberg/flask-video-streaming.git

If you prefer to download it, then you can get a zip file here.

Once you have the application installed, create a virtual environment and install Flask in it. Then you can run the application as follows:

$ python app.py

After you start the application enter http://localhost:5000 in your web browser and you will see the emulated video stream playing the 1, 2 and 3 images over and over. Pretty cool, right?

Once I had everything working I fired up my Raspberry Pi with its camera module and implemented a new Camera class that converts the Pi into a video streaming server, using the picamera package to control the hardware. I will not discuss this camera implementation here, but you can find it in the source code in file camera_pi.py.

If you have a Raspberry Pi and a camera module you can edit app.py to import the Camera class from this module and then you will be able to live stream the Pi camera, like I'm doing in the following screenshot:

Frame 1

If you want to make this streaming application work with a different camera, then all you need to do is write another implementation of the Camera class. If you end up writing one I would appreciate it if you contribute it to my GitHub project.

Limitations of Streaming

When the Flask application serves regular requests the request cycle is short. The web worker receives the request, invokes the handler function and finally returns the response. Once the response is sent back to the client the worker is free and ready to take on another request.

When a request that uses streaming is received, the worker remains attached to the client for the duration of the stream. When working with long, never ending streams such as a video stream from a camera, a worker will stay locked to the client until the client disconnects. This effectively means that unless specific measures are taken, the application can only serve as many clients as there are web workers. When working with the Flask application in debug mode that means just one, so you will not be able to connect a second browser window to watch the stream from two places at the same time.

There are ways to overcome this important limitation. The best solution in my opinion is to use a coroutine based web server such as gevent, which Flask fully supports. With the use of coroutines gevent is able to handle multiple clients on a single worker thread, as gevent modifies the Python I/O functions to issue context switches as necessary.

Conclusion

In case you missed it above, the code that supports this article is this GitHub repository: https://github.com/miguelgrinberg/flask-video-streaming/tree/v1. Here you can find a generic implementation of video streaming that does not require a camera, and also an implementation for the Raspberry Pi camera module. This follow-up article describes some improvements I made after this article was published originally.

I hope this article shed some light on the topic of streaming. I concentrated on video streaming because that is an area I have some experience, but streaming has many more uses besides video. For example, this technique can be used to keep a connection between the client and the server alive for a long time, allowing the server to push new information the moment it becomes available. These days the Web Socket protocol is a more efficient way to achieve this, but Web Socket is fairly new and works only in modern browsers, while streaming will work on pretty much any browser you can think of.

If you have any questions feel free to write them below. I plan to continue documenting more of the not well known Flask topics, so I hope you connect with me in some way to know when more articles are published. I hope to see you in the next one!

Miguel

441 comments

  • #276 Miguel Grinberg said 2017-09-04T16:34:47Z

    @Neeraj: Not sure I understand then. The code that I have on GitHub returns frames as they are delivered by the camera, you get a close to real time view. There is nothing that I do to store frames on disk, so I'm not sure why you say that you get frames that were stored early, since I'm not storing any frames.

  • #277 Neeraj Gupta said 2017-09-11T07:02:17Z

    @Miguel - how can one increase the frame rate ? so that streaming images look like video ?

  • #278 Miguel Grinberg said 2017-09-11T16:25:33Z

    @Neeraj: It looks like video for me, I get about 15-20 fps on my Mac laptop. If your frame rate is too slow, you may need to reduce the video size, or find a faster way to encode the frames. It really depends on your camera.

  • #279 Neeraj Gupta said 2017-09-12T04:06:32Z

    @Miguel - I am talking about the images which you are displaying. (1.jpg,2.jpg,3.jpg)

    How to increase the frame rate of that images ?

  • #280 Miguel Grinberg said 2017-09-12T18:00:14Z

  • #281 Neeraj Gupta said 2017-09-13T09:42:14Z

    @Miguel - I tried to reduce the sleep amount,but still its not working.

    I have one more question.

    Does this code work with IP cameras ?

  • #282 Miguel Grinberg said 2017-09-13T16:26:24Z

    @Neeraj: it will work with any camera you write a driver for.

  • #283 neeraj gupta said 2017-09-14T11:14:43Z

    @Miguel- Thankyou for quick reply..

    I have a camera with IP and port number. When I connect it with my machine(ubuntu) and trying to access camera through your code.

    It didnt work.

    Camera is in with ip range also.

    Any suggestion ?

  • #284 Miguel Grinberg said 2017-09-14T23:07:09Z

    @Neeraj: I really don't understand what you are trying to do, and your "it didn't work" statement is too vague for me to comment on. As I said several times already, you need to write a Camera class that knows how to capture frames from your device.

  • #285 YJ said 2017-10-13T03:33:39Z

    What is the main important things that I should import ? Because it keep show out the import error like cannot import camera, cannot import thread. SO what should i need to do for that? I'm new with python.

  • #286 Miguel Grinberg said 2017-10-13T04:04:59Z

    @YJ: I don't understand what you are asking. This project is a complete application, you need to run it as "python app.py" as indicated in the article above.

  • #287 wan_od said 2017-10-31T03:30:11Z

    Let say I have a global variable inside my flask app and I want it to pass to this route: fid = 9

    @app.route('/video_feed') def video_feed(): global fid return Response(gen(Camera(fid)), mimetype='multipart/x-mixed-replace; boundary=frame')

    In camera_opencv.py how am I going to fetch that variable in class Camera(BaseCamera): @staticmethod def frames(fid):

    How can I fetch that fid variable inside the frames function? thanks for this great tutorial :) More power sir!

  • #288 Miguel Grinberg said 2017-10-31T04:07:06Z

    @wan_od: you have to pass your variable to BaseCamera's init(), from there you can pass it to the background thread, and in the background thread you can pass it when the frames() iterator is invoked.

  • #289 wan_od said 2017-10-31T04:19:50Z

    you mean this?

    class Camera(BaseCamera()): def init(self, fid): global id id = fid

    then how to pass this to background thread? sorry I am still learning python

  • #290 Miguel Grinberg said 2017-10-31T05:20:23Z

    @wan_od: No. Once you have it in init() you can pass it to the background thread as an argument here: https://github.com/miguelgrinberg/flask-video-streaming/blob/master/base_camera.py#L66.

  • #291 wan_od said 2017-10-31T11:58:17Z

    but how am I going to pass and receive it here?

    class BaseCamera(object): thread = None # background thread that reads frames from camera frame = None # current frame is stored here by background thread last_access = 0 # time of last client access to the camera event = CameraEvent()

    def __init__(self): """Start the background camera thread if it isn't running yet.""" if BaseCamera.thread is None: # start background frame thread BaseCamera.thread = threading.Thread(target=self._thread) BaseCamera.thread.start() # wait until frames are available while self.get_frame() is None: time.sleep(0)

    and pass it to def frames() in camera_opencv.py ??

  • #292 Miguel Grinberg said 2017-10-31T22:24:47Z

    @wan_od: add it as an argument to the Thread() instance, then you can pass it to frames() as an argument in the thread function.

  • #293 abdullah singh said 2017-11-02T23:50:58Z

    I have the same issue what I did is this in my video_feed function I instantiate an object to BaseCamera:

    Obj = BaseCamera(varA) Obj.frames(varA)

    then in my BaseCamera class I did this:

    def init(self,varA): threading.Thread.init(self) self.threadID = varA

    then I don't know how to pass it to _thread and pass it to frames am I doing it right? I am new to OOP

  • #294 Miguel Grinberg said 2017-11-03T00:25:46Z

    Python supports passing arguments to threads. See http://blog.acipo.com/python-threading-arguments/ for some examples of how this is done.

  • #295 wan_od said 2017-11-04T03:42:21Z

    Hi sir Miguel! Now I was able to pass the id to the base camera's init using this code:

    BaseCamera.thread = threading.Thread(target=self._thread, args = (fid,))

    then I was able to fetch it to the _thread function :

    def _thread(cls,fid): print(fid)

    My problem now is how can I pass it to the frames() function in the camera_opencv.py?? I tried this but I got an error:

    def _thread(cls,fid): print(fid) """Camera background thread.""" print('Starting camera thread.') frames_iterator = cls.frames(fid) # this one

    Can you give me a hint on how to do pass it to frames in the camera_opencv.py??? I am starting to understand your masterpiece :) thanks

  • #296 Miguel Grinberg said 2017-11-04T06:31:38Z

    @wan_od: what error did you get?

  • #297 wan_od said 2017-11-04T07:52:32Z

    When I try to pass the value to frames_iterator = cls.frames(fid) and fetch it in frames function under base_camera.py:

    @staticmethod def frames(x): print(x) """"Generator that returns frames from the camera.""" raise RuntimeError('Must be implemented by subclasses.')

    I got this error :

    Exception in thread Thread-7: Traceback (most recent call last): File "C:\Users\coder\AppData\Local\Programs\Python\Python35\lib\threading .py", line 914, in _bootstrap_inner self.run() File "C:\Users\coder\AppData\Local\Programs\Python\Python35\lib\threading .py", line 862, in run self._target(self._args, *self._kwargs) File "D:\base_camera.py", line 97, in _th read frames_iterator = cls.frames(fid) File "D:\base_camera.py", line 90, in frames raise RuntimeError('Must be implemented by subclasses.') RuntimeError: Must be implemented by subclasses.

    But I was able to print the id in the frames function:

    @staticmethod def frames(x): print(x) """"Generator that returns frames from the camera.""" raise RuntimeError('Must be implemented by subclasses.')

    My question now is how can I pass it to the real frames function in the camera_opencv.py????? I really need to pass it to the frames() function in the camera_opencv.py. Please help.

  • #298 Miguel Grinberg said 2017-11-04T18:15:48Z

    @wan_od: do you have your complete code somewhere I can see it?

  • #299 wan_od said 2017-11-04T22:49:21Z

    Hello Sir Miguel! I really appreciate your efforts and time helping me. Thanks :) Here are the pastebin links from the 3 python files from your masterpiece:

    https://pastebin.com/EaetK4UY https://pastebin.com/4jVXBTR7 https://pastebin.com/NTATnEmc

    I removed your comments sir and put my explanations in the comments. There are no changes in your code sir what I really want is from the first pastebin link pass the variable to frames () function in the third link. But as what you have said I have to pass it first to the BaseCamera's init function in the second pastebin link and then pass it to the thread. I have successfully pass it to the init and thread. Now my problem is how to pass it to the frames() function in the third pastebin link. Both base_camera.py and camera_opencv.py has frames function. I really appreciate your works sir Miguel. Thank you so much.

  • #300 Miguel Grinberg said 2017-11-05T15:04:15Z

    @wan_od: Not sure I understand your code, but in any case, the BaseCamera class is not supposed to be instantiated directly. You should use the Camera class from the opencv module, which inherits from it. If you have other questions, please use Stack Overflow, where you can include code examples much better than you can here.

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