I used to hate android emulators, since the ones I’d tested on Windows were ad-ridden, slow bloatware.
The other day I needed to run an android app on Fedora 40.
I tried Waydroid and it worked very well. The app ran supersmooth as if it was running natively.
Also the cli syntax was very sane an user friendly.
waydroid app install|run|list …
So if you need an Android app on linux the experience might be better than what you think it would be.
I tried Waydroid and it worked very well. The app ran supersmooth as if it was running natively.
thats because it was running natively
The app ran super smooth as if it was running natively
That’s because it is native! Waydroid runs an android container on top of your existing kernel. You will notice that you can even see the Android processes while running Waydroid in a top utility.
Although the Android kernel is slightly customized isn’t it? I thought it exposed a few extra syscalls. How do these work on Waydroid?
some android kernels are, but AOSP itself can run perfectly happy on a vanilla kernel, just make sure your kernel was compilled with BINDER enabled, which yes, is upstream
https://wiki.archlinux.org/title/Waydroid#Kernel_Modules
You must use a kernel with the android-specific modules compiled in, or use the
binder_linux-dkms
module. I’ve noticed using a kernel with them built in is generally easier to get working.
I think a part of your positive experience is also thanks to Linux. Android emulation works better on it because the difference between Linux and Android is not that big and definitely not as big as between Windows and Android. Though Waydroid rocks anyways
The documentation says:
Waydroid uses Linux namespaces (user, pid, uts, net, mount, ipc) to run a full Android system in a container and provide Android applications on any GNU/Linux-based platform.
To my understanding this isn’t even emulation but regular container technology.
Yes, Waydroid uses lxc containers.
Wouldn’t some Android Apps require specific builds for x86 architectures? Does Android take care of that?
If you need arm, then you probably have to install libhoudini https://github.com/casualsnek/waydroid_script
libhoudini is optimized for Intel, NDK for AMD, but some apps may be incompatible with one or the other.
most android apps are architecure agnostic “java, kotlin etc” and even apps that are often ship “Universal binaries” which include x86, or split builds for arm and x86
A lot of android apps are built using Java/Kotlin, so you don’t actually need to care about architecture since the JVM supports both x86_64 and arm64.
There are exceptions to this though, since some apps need to run native code. Those apps would need some sort of emulation/translation layer for the arm instructions.
It took a long long time until Android emulators on Linux worked even close to what has been available on Windows.
But now the windows one is getting scrapped whereas Waydroid is presumably sticking around.
this is not really quite true, we have always been able to run androidx86/BlissOS in qemu which works about “as well” but with less integration, IE no “native like” windows
Android emulation works better on it because the difference between Linux and Android is not that big
To be clear, the difference between Linux and Android is about the same as the difference between Linux and Fedora, in that they are both Linuxes. That’s why this works, and why the reverse (running GNU/Linux apps and even entire systems on Android) is possible as well.
I meant a desktop Linux distro, not the kernel itself. And Android has a ton of bloatware on top of it so it’s not really the same thing. Android has like a double decker kernel
AOSP doesn’t have that much bloat, it’s far lighter then your typical linux distro, It’s vendors that bloat it up, Custom roms are extremely light, This is BlissOS running on 2Gb of ram https://files.catbox.moe/4n17z3.mp4.
It’s far more responsive then many linux distros would be since android and it’s applications are optimized around low ram and low system resource in general
Android can run on 2Gb but the experience won’t be great. Linux with something like JWM or Xfce runs way better. Android 12 and higher are especially heavy. You can notice it by comparing on relatively low end devices (with like a Unisoc T606 or something). Android 14 runs better but it has ads-related stuff in it. And Android kernel itself has a lot of unnecessary stuff. They say it’s better for performance but bruh how can a more bloated thing be better? Real tests speak for themselves. Don’t trust theory and Google’s changelogs.
this really isn’t true at all. android works great on 2Gb of ram, you don’t really hit issues until you load gapps. If you don’t it works great. I actually run BlissOS on my old Asus t100ta and Im not the only one.
When you do nothing something like xfce works great, but when you actually start doing things like browsing the web, watching youtube etc then it starts to really become a slog. Meanwhile something like BlissOS is actually usable even when watching 1440p content (gpu not strong enough to test UHD)
I didn’t mean that Android is bad. What I meant originally is that Android is getting less efficient and slower for no reason over time.
This is for sure the case for vendor solutions, but AOSP itself is still quite the lean OS. Android also has GO variants which perform even better at low resources, (Bliss also has builds of these if one is curious). They are extremely responsive. I don’t think Bliss as A14 go builds, but we do have A13 go builds, and they are extremely responsive on very low end hardware, the bar is actually support for SSE.
Bliss currently has a hard requirement on SSE 4.2 or greater due to a load of changes (occasionally some work is made on lowering this but it’s slow and a lack of real motivation), but pretty much everything I have tested that is supported works fairly well, from my old i3 desktops, my atoms and celerons etc.
This is for the general case, size doesn’t always translate to performance. I haven’t read the AOSP source so I wouldn’t know for sure, but the general case for any algorithm is that. Sometimes having more code can result in faster performance due to how the algorithm works.
its easy to test BlissOS is open source and can be installed on any relatively modern PC or in a VM, coms with foss and gapps variants, install foss
Used it but couldn’t play any media on it, which was going to be my use case. Nvidia!!!. But the devs and the community are quite patient and helpful in their telegram channel.
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Yeah, it can’t run stuff compiled for ARM, right?
I hit a speed bump and I haven’t had time to fully investigate but I too would like to run games.we can if you load libhoudini or libndk, but both are proprietary so they arent included by default, casual snek’s waydroid-extras
Ooh, thank you. I’ll try that tonight.
It worked! But the menus are bugging out in the game itself so I’ll need to tinker some more I guess.
What if Fedora is running on ARM?
it should have pretty good support but you may need to use this script to spoof the device for some stuff https://github.com/Quackdoc/waydroid-scripts/blob/main/spoof-device.sh
see reply to casey’s replly
I just tried it 3 days ago on Fedora 40, Did not run for me.
Followed their wiki
How did you setup?
At what point did it not work for you? I just got it running on Fedora 40 following their wiki.
Yeah I tried it on pop os a while back and never could get it running at all
Are yiu sure you’re running Wayland and not X11?
You need a custom kernel, or a kernel module plus DKMS and kernel headers for your current kernel.
You also need the package that handles whatever filesystem they use for their containers.
Then, you need to be running it on Wayland or else it doesn’t work.
The part that I’m stuck on is running games, which gives an error about not being able to find libmain.so, which might be an architecture mismatch problem. Maybe I can virtualize that part? But at that point I might as well just buy a phone.
I had a similar positive experience with Gamescope, which tamed a game that freaked out every time I moved the moude onto the other monitor.
Maybe Wayland’s healthy place is as a secondary window system you launch inside your normal X11 session.
Maybe Wayland’s healthy place is as a secondary window system you launch inside your normal X11 session.
Yeah you’ve got that perfectly backwards.
Wayland allows X11 apps to open using XWayland. Not the other way around.Xorg’s life is running short and will be largely abandoned in the near future.
I admire your optimism but some governments are still using floppy disks.
I don’t see how this matters lol, as govt will happily used abandoned media and software.
We’re here talking end users and homelabs, not IBM mainframe maintainers 😛
I think I’d be a lot more excited about Wayland if I felt like I can get a compositor that matches my tastes.
I want to iconify things to the desktop, not relying on a taskbar-alike. Nothing seems to offer that. Hell, the taskbar is often a third party program.
I want to double-click to shade. Labwc just added this, a feature that X11 window managers have been offering since the 90s.
I want an aesthetic that’s got real depth and skeumorphism, rather that flat and featureless. Maybe something offers that, but there are plenty of X11 choices that have beveled buttons out of the box.
The charm of Unix systems used to be flexibility, buy Wayland seems to be an extinction-level event for traditional window management. Nothing fills the gap of FVWM or WindowMaker. But gosh, I can get 92 flavours of tiling compositor and windows that ripple when dragged.
The charm of Unix systems used to be flexibility, buy Wayland seems to be an extinction-level event for traditional window management. Nothing fills the gap of FVWM or WindowMaker. But gosh, I can get 92 flavours of tiling compositor and windows that ripple when dragged.
I think this is “temporarily” true as we get more kits that make wayland development trivial I think it wont be so bad, right now wayland is still very immature, and will be for a long time.