At Tue, 13 Sep 2011 09:47:06 +0100, Colin Guthrie wrote:
'Twas brillig, and Takashi Iwai at 13/09/11 08:55 did gyre and gimble:
Yup I think so. I'll put this on my list (I did try and suggest something like this a while back, but got little in the way of responses
- I wanted to standardise things rather than have distro hacks
everywhere - can't seem to find the email now, so I'll just resend it when I have some time to think straight)
Yeah, we want to have some really easy way to check whether PA is enabled or not. For example, in the case of X11, you can check $DISPLAY (or options are given explicitly) as a primary check.
Yeah, but sadly I don't think this is possible. The Ubuntu solution for example works differently to yours. (Disclaimer, I've already said I think this is ugly). It works by altering the config file dynamically such that the default is either dmix or pulse depending on whether PA is running. Of course "PA is running" is a broken check in the first place (see the "ugly" word in my disclaimer!) as we could be dealing with thin clients and remote PA daemons only, in which case there is no running PA. The *only* client-side way to do sensible autodetection is to try and connect and see if it works, but for a system that maniuplates configs, making the connection before actually making a real connection is just silly. Your approach is more sensible, but still has those tricky corner cases due to not being able to export a simply variable (such as $DISPLAY) or other mechanism for simple detection of a PA based system.
Such an ugly trick should be really avoided, yes...
Regardless, there would need to be some (distro specific?) GUI to configure whether or not the user wants to use PA. A global (i.e. system-wide) GUI to do this has existed in Mandriva for years, but I don't fully know what other distros do. I presume SuSE has something in YaST?
SUSE provides a script to turn on/off PA globally. I don't remember whether this can be called from YaST, as I haven't checked it for long time, though...
But one problem is that this setup is a global one. There is no trivial way for setting up for each user.
Yes, I did the same in Mandriva/Mageia, but it's global only. An option to do this officially in PA configs would IMO solve this issue - the PA configs can already be set to global (/etc/pulse/daemon.conf) or local (~/.pulse/daemon.conf), so if that's all we use to define whether or not we want PA, then we should be all set.
Or, can we introduce an environment variable to indicate globally whether the system is supposed to use PA or not explicitly? It's easier than looking through config files.
Alternatively, if PA-lib provides a simple function to return the enablement state, it'd be fine, too.
So the problem I have is thus:
- If the user wants to use PA and it's configure in the system that
way, then ALSA (or any other PA client) will autospawn PA if it's not running. If that doesn't work, I would prefer that no ALSA-only fallback happens as it masks where the real problem lies.
Right. In this case, PA should have been started beforehand. But, the start-up is always racy, so it might happen that ALSA-pulse app is kicked off before PA daemon gets started. This is one possible problem.
I've still not been able to nail down any races but I've had a handful of bug reports that seem to suggest *something* racy is going on. I'll be damned if I can spot it in the code tho'. :(
I remember vaguely XDG startup conflicts. There are two startups, one for GNOME and one for KDE, and both are started on KDE. In addition, the GNOME login sound might autospawns PA during/before PA-start desktop file is processed.
Another possible problem is when PA daemon crashes by some reason and ALSA-pulse app is started just after it.
That shouldn't generally be a problem. We should autospawn in that case. That said, I'm not sure if there is a sequence of precise timings that would cause a problem here?
- If a given user does not want to use PA, but the system is
configured to run PA, then that user will typically have a PA daemon started anyway via XDG autostart, unless they have specifically chosen via their DE to override this startup option. In this scenario, PA is running already and the automatic fallback stuff in the alsa-plugin won't work as intended.
XDG isn't used in every environment. Many window managers won't use it. So, there are two cases: 2a) PA starts up via XDG but user doesn't want to use. 2b) PA doesn't start up and user doesn't want to use PA.
Well GNOME and KDE do and there are xdg compliance wrappers for others too, so I wouldn't worry about the cases where it's not present (at least for this example).
Oh no, you just ignore the cases without XDG. There are many people who don't use XDG startup at all (including me), who are using a light-weight WM like fluxbox, icewm or whatever. The fallback mechanism is really for this case.
We have to deal with the "fallout" when it is present. i.e. the 2a).
The case 2a is that user needs manual adjustment anyway. If XDG is used, the adjustment is unavoidable. So, the only sane solution for this is a static configuration.
But case 2b is different. The system doesn't start PA, and thus you assume you don't use PA. But, then ALSA-native app starts PA because of the pulse plugin. This is what annoys most people.
- If the system is not configured for PA but a given user does want to
use it, then the system will not run PA at login (due to hacks on the XDG startup scripts and by setting autospawn=no in the /etc/pulse/client.conf file), and thus the user will have to find a way to start pulseaudio themselves (e.g. by copying the client.conf to their own directory and setting autospawn=yes).
Right.
So these are the three scenarios we want to cover right?
If so, automatic systems are not really useful. In order for things to work right, we really need to prevent both autospawn and manual XDG spawn easily, both on a global and on a per-user basis.
Actually, other apps supporting PA seem doing the same thing already. It falls back to other backends when PA connection failed.
This is true. You make a valid argument. I seem to be judging a alsa client app in a different way to these other apps with specific PA support + a fallback scheme for some reason. Not sure why I'm doing that, but I suspect it relates to the "alsa fallback" in 99% of those apps will be pure alsa, not automatic-fallback-alsa.
If you consider a setup whereby we have the following setup:
- autospawn=yes in global client.conf + no local client.conf
- enable=no in global daemon.conf + no local daemon.conf
The "enable" option is mythical - I've made it up, but it could be added.
If a client app that supports PA and has fallback to alsa, this is how things would work:
- App tries Pulse.
- PA is not running, so libpulse tries autospawn.
- Autospawn fails (daemon exits due to enable=no config option)
- App determins Pulse is not available.
- App fallsback to ALSA
- ALSA tries Pulse.
- PA is not running, so libpulse tries autospawn.
- Autospawn fails (daemon exits due to enable=no config option)
- ALSA determins Pulse is not available.
- ALSA falls back to sysdefault.
- Whatever happens next....
So as you can see with the automatic system, we have the unnecessary overhead of starting up twice.
When the fallback is set, it passes PA_CONTEXT_NOAUTOSPAWN, so steps 2-8 will be skipped, thus no big problem here.
I think you misunderstand. libalsa only tries pulse in step 6. libalsa has not had a lookin in the app until step 6, so there is no way anything in alsa or alsa-plugins could affect steps 1 through 6.
Ah, I see.
Remember this is an app that supports "PA natively + ALSA fallback" - i.e. there are *two* layers of fallback in this case. That's what I'd like to avoid.
HOwever, I can see steps 7-8 not being required.
The problem by fallback is that the autospawn isn't triggered -- that is, when ALSA-pulse app is started before PA daemon, it fails. It means that the fallback option assumes that PA daemon is started already in a certain way like XDG. And the scenario 3 above is a problem, indeed. (The scenario 1 might have races in exceptional cases, too.)
Ugg, so it breaks autospawn too :( That *really* sucks. So all it takes if for someone to have an aplay startup sound script and it breaks their entire setup? :(
Only if the system is supposed to use PA :) And remember that this is done in the same way like other apps (e.g. mplayer) with fallback.
This system is just keeps creating corner cases!!! I really don't like it :( For one thing this means you cannot have console alsa apps using PA anymore. While I don't personally care about this, we did get quite a few complaints about it before autospawn was default. We'll be the ones taking the flack for this configuration.
Actually, this is another issue. People who are working on console don't want PA in many cases. But let's stop arguing whether to use PA or not here.
Now with a static config, this wouldn't happen. Only one attempt would be made (in the app) and by the time it reaches alsa, it already knows we do not want to use PA and thus it doesn't even try to connect to PA.
Sure, a static config check can be put in the fallback easily once when defined.
So going back to my first three scenarios, the only actual case where an automatic fallback helps is when the user has disabled PA.
Well, it's rather the case 2b above -- for users with a simple / dumb window manager without touching global setups. They don't set any flags but silently assume that PA isn't used because it's not started manually.
Just another one of the corner cases I'd very much like to avoid
The rest of the cases, the user may get some semblence of a working setup but so many other things would break (e.g. keys for adjusting volume, OSDs showing volume, panel mixer applets etc) that it is arguably worse to give them a half working setup.
Yeah, but you can forget about these stuff. If something doesn't work without PA, it's the system's fault. The fallback assumes that it would work without PA.
So you're saying that PA+non-PA should be treated as equal citizens in the Desktop Environment. Becasue that's not the case. Both GNOME and KDE are both targeting the recommended setup of PA.
Well, the world is neither GNOME nor KDE. That's the whole point of a tricky way like fallback. There are systems without PA, and both PA and non-PA systems can coexist on a single machine. It's just a matter of configuration.
If you don't use PA, then the user certainly gets a second class experience. This is 100% intended and isn't going to change.
It doesn't matter whether non-PA is a second class or not. It's irrelevant from the discussion here. The fact is that still many people want a non-PA system. A second-class is cheaper, and easier to manage. Such people prefer it to too complex system. This won't be changed no matter how advertising PA's merit. So, please accept this fact, then continue a constructive discussion.
So you really have to consider these changes very carefully. I will fully support and help develop a deterministic system here, but I just cannot see any scenario where automatic checks will work reliably and deterministically, especially now I learn that autospawn is disabled :(
The autospawn is really a drastic thing. It can help much but also it annoys much...
The current fallback mechanism is far from perfect. It should be improved. But please see the key point of it is that the system can use the same alsa-lib config for both PA and non-PA cases. As said, if we have an easy way to set / check PA's activity, the fallback check can be replaced in a better & reliable way.
So the case where it really helps is when the user genuinely opts out of PA. And if they genuinely do opt out, there are several things to do to make it so anyway (like setting the autospawn to no in client.conf and disabling the XDG autostart files), that making alsa config "just work" is really of minimal usefulness.
So I still maintain that a static config is better for everyone. Make a standard way to disable PA on a per-user basis, and make the alsa client config tie into that easily.
Users who want PA will have breakage when things are broken at the PA end, but that's likely more useful overall - it means the user will report a bug and we can fix their setup.
User just just opt out, will be able to do so in a robust and officially blessed way that kills of: 1. autospawn, 2. XDG startup, 3. Alsa configuration all in one go.
Added to this, the corner cases where automatic fallback would fail are avoided (and actually it's relatively common for users to use e.g. aplay or another alsa client with a remote server for testing their PA network setups and if the audio started coming out locally due to e.g. a firewall issue, it would be really odd and would then break PA apps due to the device hogging, so we really do want to cover this)
Yes, I'm for an easy static config per user-basis, too. However, another question is whether user must setup it to enable / disable PA. In other words, how to detect reliably whether the running DE is supposed to use PA or not.
The current implementation checks PA connection as the indication of PA-usage. If there is a better way to know, it can be used instead in the plugin.
- Check PA with full autospawn support.
- I'll look at adding some kind of error state into the connection
stuff in libpulse that would give information about whether or not PA should have been used or not, but something stopped us. The following scenarios should be covered by this check: a. Attempted to connect to remote daemon, but failed (e.g. due to firewall or simply a daemon not running on the remote end). b. No remote config, attempt to run PA (autospawn=yes, enable=yes) but PA didn't start.
Under those two scenarios, you should fail. But if libpulse can somehow tell you "no PA is not meant to be used here" (i.e. "no local daemon + (autospawn=no || enable=no)") then you can undertake your fallback scheme.
I think this approach is more robust, and still gives you most of your auto-configuration desires.
Yeah, sounds reasonable.
The user would very much still have to run $something do disable his PA if the system uses it (i.e. echo "enable=no" > ~/.pulse/daemon.conf), but that is something I think we'd have to live with.
Hm, I guess the point would be how easy you can achieve this.
I really don't think this would work anyway. As I outlined above, if the user opts out they *have* to touch some things (disabling PA autospawn and preventing XDG autostart), so I think it's likely worth abandoning the whole idea of "[not] touching anything".
Well, PA autospawn is a problem, but it happens only after starting an PA-native app. With the fallback, ALSA-native app won't autospawn. XDG autostart isn't used by many DEs. So, this use-case isn't so unrealistic at all.
I think that's very wrong. "ALSA native" shouldn't be considered differently to any other pulse client.
No, no, in the case of non-PA use, ALSA-native is no longer pulse client. User never thinks of PA. The fallback is just for that purpose.
To do so just breaks many of the mechanisms we've specifically spent time and effort on to put in place to make things "Just work". This is a massive backwards step to then deliberately break these mechanisms :(
Can we figure out the error reason from PA-lib? For example, if PA-lib returns an error code indicating that PA is disabled, we can use a fallback mechanism. OTOH, if PA's error is because of other reasons (e.g. network down), the fallback shouldn't be used.
Perhaps, we'd likely need to add a new error code or similar for why the connection failed.
But I think the only scenario you'd want to cover is if a local PA was attempted to be spawned and it failed due to the server being disabled (e.g. by the enable=no flag that I could add) or if autospawning itself was disabled and no running server was found.
I will look into doing this, but as mentioned above, I think the user will still need to do *something* to disable PA, even if the alsa side of things "just works" when that is the case.
As mentioned, I'm basically for the static-config solution. It'll cover more completely. OTOH, there are corner-cases (like the scenario 2b) to consider more...
2b is easy. PA autospawn should work and start PA. It's then the same case as 2a.
Ah, maybe this is the misunderstanding. In 2b, you do _not_ want to use PA. PA isn't started by XDG, and you want dmix via aplay.
Ideally, for these environment, user should set enable=no or whatever. But it's optional unless user starts PA-native apps, as long as the fallback works, because PA daemon is never triggered.
The fact it was started by XDG or autospawn should be 100% irrelevant to audio apps. It's an implementation detail. Maybe we'll be started by systemds session lingering in the future? Who knows. The point is that if the system is configured for PA it should use PA.
I want to avoid all the strange rules. I don't want to have to explain to someone on our IRC channel (and believe me, *I'd* be the one getting the fallout from this option, not you!) "Oh pulseaudio automatically spawns if it's not running except if the app is an alsa app in which case it doesn't but only if you've configured your alsa setup that way so it really depends" Users don't really want to know *anything* about Pulse or ALSA. They shouldn't care, they just want a system that works. and I don't want to have to jump through hoops to do it.
I will help get the necessary info from libpulse about how to proceed, but only after 1.0 is out the door (which should be soon). All I ask is that you try to appreciate my concerns here and how there are many legitimate use cases and operational steps that would be jeopardised by the current implementation and do not do a release with the code as it currently stands.
Yeah, let's take a bit more deeper look.
thanks,
Takashi