AirPlay capabilities for your Chromecast players.
Apple devices use AirPlay to send audio to other devices, but this is not compatible with Google's Chromecast. This add-on tries to solve this compatibility gap.
It detects Chromecast players in your network and creates virtual AirPlay devices for each of them. It acts as a bridge between the AirPlay client and the real Chromecast player.
The installation of this add-on is pretty straightforward and not different in comparison to installing any other Hass.io add-on.
- Add our Hass.io add-ons repository to your Hass.io instance.
- Install the "AirCast" add-on.
- Start the "AirCast" add-on
- Check the logs of the "AirCast" add-on to see if everything went well.
After ~30 seconds you should see some log messages appear in the add-on log. Using your iOS/Mac/iTunes/Airfoil/other clients, you should now see new AirPlay devices and can try to play audio to them.
NOTE: Do not add this repository to Hass.io, please use:
https://github.com/hassio-addons/repository
.
Note: Remember to restart the add-on when the configuration is changed.
Example add-on configuration:
{
"log_level": "info",
"address": "192.168.1.234",
"latency_rtp": 5000,
"latency_http": 0,
"drift": true
}
Note: This is just an example, don't copy and past it! Create your own!
The log_level
option controls the level of log output by the addon and can
be changed to be more or less verbose, which might be useful when you are
dealing with an unknown issue. Possible values are:
trace
: Show every detail, like all called internal functions.debug
: Shows detailed debug information.info
: Normal (usually) interesting events.warning
: Exceptional occurrences that are not errors.error
: Runtime errors that do not require immediate action.fatal
: Something went terribly wrong. Add-on becomes unusable.
Please note that each level automatically includes log messages from a
more severe level, e.g., debug
also shows info
messages. By default,
the log_level
is set to info
, which is the recommended setting unless
you are troubleshooting.
These log level also affects the log levels of AirCast server.
This option allows you to specify the IP address the AirCast server needs to bind to. It will automatically detect the interface to use when this option is left empty. Nevertheless, it might get detected wrong (e.g., in case you have multiple network interfaces).
Allows you to tweak the buffering, which is needed when the audio is stuttering
(e.g., low-quality network). This option specifies the number of ms the addon
has to buffer the RTP audio (AirPlay). Setting this value below 500ms is not
recommended! Setting the value to 0
causes the addon the get the value from
AirPlay.
Allows you to tweak the buffering, which is needed when the audio is stuttering (e.g., low-quality network). This option specifies the number of ms the addon has to buffer the HTTP audio.
Note: This option usually is not needed and can be left to 0
in most
cases.
Set to true
to let timing reference drift (no click).
These bridges receive real-time "synchronous" audio from the AirPlay controller in the format of RTP frames and forward it to the Chromecast player in an HTTP "asynchronous" continuous audio binary format. In other words, the AirPlay clients "push" the audio using RTP and the Chromecast players "pull" the audio using an HTTP GET request.
A player using HTTP to get its audio expects to receive an initial large portion of audio as the response to its GET and this creates a large enough buffer to handle most further network congestion/delays. The rest of the audio transmission is regulated by the player using TCP flow control. However, when the source is an AirPlay RTP device, there is no such significant portion of audio available in advance to be sent to the Player, as the audio comes to the bridge in real time. Every 8ms, an RTP frame is received and is immediately forwarded as the continuation of the HTTP body. If the Chromecast players start to play immediately the first received audio sample, expecting an initial burst to follow, then any network congestion delaying RTP audio will starve the player and create shuttering.
The latency_http
option allows a certain amount of silence frames to be sent
to the Chromecast player, in a burst at the beginning. Then, while this
"artificial" silence is being played, it is possible for the bridge to build
a buffer of RTP frames that will then hide network delays that might happen
in further RTP frames transmission. This delays the start of the playback
by latency_http
ms.
However, RTP frames are transmitted using UDP, which means there is no guarantee of delivery, so frames might be lost from time to time (often happens on WiFi networks). To allow detection of lost frames, they are numbered sequentially (1,2 ... n) so every time two received frames are not consecutive, the missing ones can be asked again by the AirPlay receiver.
Typically, the bridge forwards immediately every RTP frame using HTTP and again, in HTTP, the notion of frame numbers does not exist, it is just the continuous binary audio. So it is not possible to send audio non-sequentially when using HTTP.
For example, if received RTP frames are numbered 1,2,3,6, this bridge will forward (once decoded and transformed into raw audio) 1,2,3 immediately using HTTP but when it receives 6, it will re-ask for 4 and 5 to be resent and hold 6 while waiting (if 6 was transmitted immediately, the Chromecast will play 1,2,3,6 ... not nice).
The latency_rtp
option sets for how long frame 6 shall be held before adding
two silence frames for 4 and 5 and send sending 4,5,6. Obviously, if this delay
is larger than the buffer in the Chromecast player, playback will stop by
lack of audio. Note that latency_rtp
does not delay playback start.
Note:
latency_rtp
andlatency_http
could have been merged into a singlelatency
parameter which would have set the max RTP frames holding time as well as the duration of the initial additional silence (delay), however, all Chromecast devices do properly their own buffering of HTTP audio (i.e., they wait until they have received a certain amount of audio before starting to play), then adding silence would have introduced an extra unnecessary delay in playback.
Aircast creates a configuration file called aircast.xml
in your Home
Assistant configuration directory. This file allows you to tweak each device
separately. Every time it finds a new device, it will be added to that file.
NOTE: It is HIGHLY recommended to stop the addon before making changes to the configuration file manually.
- This add-on does support ARM-based devices, nevertheless, they must at least be an ARMv7 device. (Raspberry Pi 1 and Zero is not supported).
- The configuration file of AirConnect (used by this add-on) is not exposed to the user. We plan on adding that feature in a future release.
This repository keeps a change log using GitHub's releases functionality. The format of the log is based on Keep a Changelog.
Releases are based on Semantic Versioning, and use the format
of MAJOR.MINOR.PATCH
. In a nutshell, the version will be incremented
based on the following:
MAJOR
: Incompatible or major changes.MINOR
: Backwards-compatible new features and enhancements.PATCH
: Backwards-compatible bugfixes and package updates.
Got questions?
You have several options to get them answered:
- The Home Assistant Community Forum, we have a dedicated topic on that forum regarding this add-on.
- The Home Assistant Discord Chat Server for general Home Assistant discussions and questions.
- Join the Reddit subreddit in /r/homeassistant
You could also open an issue here GitHub.
This is an active open-source project. We are always open to people who want to use the code or contribute to it.
We have set up a separate document containing our contribution guidelines.
Thank you for being involved! 😍
The original setup of this repository is by Franck Nijhof.
For a full list of all authors and contributors, check the contributor's page.
Want some more functionality to your Hass.io Home Assistant instance?
We have created multiple add-ons for Hass.io. For a full list, check out our GitHub Repository.
MIT License
Copyright (c) 2017 Franck Nijhof
Permission is hereby granted, free of charge, to any person obtaining a copy of this software and associated documentation files (the "Software"), to deal in the Software without restriction, including without limitation the rights to use, copy, modify, merge, publish, distribute, sublicense, and/or sell copies of the Software, and to permit persons to whom the Software is furnished to do so, subject to the following conditions:
The above copyright notice and this permission notice shall be included in all copies or substantial portions of the Software.
THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.