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I am trying to understand how the HTTP Live Streaming protocol that Apple supports on their iOS devices as well as on Safari protects the key that unlocks the content.

The way I understand it, the .m3u8 file holds the whole thing together and references the content (in MPEG2 TS container, AES 128 encrypted) and the key to the TS file.

Like in this example:






Assuming a browser based playback where the <video> element is fed a m3u8 file in the "src" attribute. In this case, even if the key is delivered via https, how can I make sure that the user does not simply enter the https URL in his browser and saves the key to his hard drive? The way I understand the mechanism, the key download is done by the <video> tag as it plays the m3u8 source using the browser's https stack -- how is the legitimate client inside the browser distinguished from the user just typing it into the address bar? This must be really obvious, but I just don't see it...

All the best,


share|improve this question
Excellent question, especially since in most cases HTTPS just turns out to be a server trust-based implementation rather than client-trust. On the wide Web, that's understandably useful, since user data is being passed to servers rather than the other way around.So users need to be assured they're sending their data to a trusted site. However in case of video, the content is being pretty much given away, and there's a greater need for the server to trust the user than vice-versa. However, client-side auth is not viable since thousands of users are to be served. Ultimately, I'm just in a pickle – Dev Kanchen Mar 13 '12 at 21:09

how is the legitimate client inside the browser distinguished from the user just typing it into the address bar?

Interesting distinction, the suggestion is the browser the user is using is legitimate when playing the video embedded in the web page, and illegitimate when accessed via the address bar.

But there is no actual distinction there, I don't think you are missing anything.

How would you give rights to a browser and not a user? Cannot a user just write their own browser?

I know, it seems unlikely a user would write a browser, but these types of discussions are always about unlikely scenarios anyway. An unlikely user might find a way to view the m3u8 as plain text, they might download the keys directly, they may use those keys to unencrypt and eventual piece together the video segments.

Or, something that is far more likely - use screen recording software to copy any video that they can play in the browser.

In my opinion, if a user is authorized to play the video, they can, unfortunately also copy the video - because there's no way to prevent the display of the video being redirected into something that is no longer encrypted - at least in the environment of a desktop computer that is playing a video in a browser.

Anyway, my understanding is that you can protect the keys by requiring authorization to get the keys, but if the user has that authorization, then - well they can get the keys.

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The answer is not obvious at all. You're essentially required to invent your own key delivery if you want it to be secure. One option is to set a cookie for authorized users, and to verify the cookie in the key server. This will keep someone from being able to just use the key url to bypass your security.

Keep in mind that it still only takes one legitimate client to leak the key for your security to be invalidated.

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As a follow up, Apple has introduced a secure key delivery mechanism for several of the latest iOS devices. They call it FairPlay Streaming. You can read about it on Apple's website: – vipw Aug 18 '15 at 6:57

how can I make sure that the user does not simply enter the https URL in his browser and saves the key to his hard drive?

You can have an SSL client key/certificate in the app, and thereby authenticate "the app" for playing the content. Then you'd avoid leaking your content to other devices than your app.

But that would mean you'd need to somehow hide your ssl-key/passphrase inside the app. And there are unfortunately also problems getting the video player on iOS to use the ssl key authentication...

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Apple's implementation of HTTP live streaming does not support DRM.

See FAQ number 16 on

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The question specifically asks about encryption, and FAQ #16 says: "media can be encrypted, and key access can be limited by requiring authentication when the client retrieves the key from your HTTPS server." This answer misses the point completely. – Tom Dalling Mar 19 '14 at 4:20
So what is point of encrypted segments?! – Mr.Hyde Aug 20 '15 at 8:18

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