Bryan Atsatt wrote:
Richard S. Hall wrote:
Sam Pullara wrote:
Did we decide which way it will be compatible? I'm a little
concerned that implementing something that can use OSGi modules is a
far bigger task that implementing something that OSGi can use. If
we are going for total compatibility it seems like we should just
use OSGi. Personally I wanted something in Java that was simpler
and cleaner that OSGi-users could leverage if they wanted. But I'm
coming at this from the we-need-something-like-maven/gem/ivy camp.
The vast majority of people that are going to use this system will
have never heard of OSGI nor care about any of their more subtle
features and just want an easy way to leverage the vast amount of
libraries available (virtually all of them are not OSGi modules
today but are jar files in maven repositories). We shouldn't be
specing out some sort of uber container but rather a simple way to
tie code to its dependencies.
If this is all that people wanted, then we could just define
repositories and associated metadata and forget about all runtime
modularity support, but I strongly disagree that this is all people
want or else there wouldn't be such an upsurge in OSGi interest and
adoption.
I strongly suggest KISS applies to our effort. I write this knowing
that the committee seems to be heavily in favor of this alternate
view that we implement the kitchen sink.
I think our interest is similar, but perhaps our conclusions are
different. Initially, I think my comments were construed as an
argument against split packages in general, but I am really arguing
the same as you (I think) that we don't really need split packages to
be a concept in our "interoperability API", if that is how we are to
view the 277 API. Of course, I am also willing to have the former
argument too, but I will leave that for another time. :-)
From my point of view, I do not think it is wholly reasonable to
assume that we want to try to accomplish interoperability across
module systems, where that includes arbitrarily sharing split
packages across module systems.
Nor do I, but I'm trying to understand the implications if we assume
that OSGi will continue to split packages.
Let me try to accurately conjure the peculiarities of split packages
in the OSGi module layer...
We support split packages in two ways, via required bundles (i.e.,
module dependencies) and via bundle fragments. In general, we
recommend that if you split your packages that you attach mandatory
attributes on them so that importers do not get them by mistake. By
requiring a bundle, you can ignore mandatory attributes and get
everything a bundle has to offer and combine it with other required
bundles that might be exporting other parts of the split packages.
Given this, there is a semi-reasonable chance* that we can tell you
which bundles are contributing to the "complete" packages, but we
have no way of knowing if/when combined split packages are complete.
Further, we have to assume that split package parts offered by
different bundles do not overlap, because if we allowed them to
overlap then we would have shadowing and ordering issues. Again we
have no easy way to verify that they do not overlap, so we just
assume they don't.
Fragments on the other hand are a little trickier, since split
packages from them are loaded from the same class loader to provide
package private access (which is not afforded for split packages in
the require bundle approach). The "host" bundle doesn't really know
about fragments and it is possible for fragments to shadow or extend
packages in the "host" bundle. Since fragments provide their split
packages in an implicit way (i.e., they largely just become part of
the host bundle's class path), there is no easy way to determine if a
fragment is contributing to a given package or not. (* This feature
of fragments also makes it so it is not really possible to know who
is contributing classes to a split package in the require bundle case.)
Ok, so first I assume it would make sense for an OSGi Repository to
simply never return a ModuleDefinition for a fragment.
I am not sure I understand your point. Host bundles would be returned
and during the resolve process, fragments might be attached to that
host, thus modifying its content in ways that we cannot predict.
And the "you don't know what you've got till it's resolved" problem is
going to be present in any module system for which package name is not
a required component of a dependency expression. But as long as
re-export is not the default behavior (it isn't), doesn't this really
just boil down to the leakage problem? And this is addressed in 277
the same as it is in OSGi: you must declare such "leaks" as re-exports
("uses"). Not perfect, but probably good enough.
So I think we're left with the issue of a single search visiting
multiple loaders that can return the same package. This won't happen
in the fragment case, since the "split" gets mended at runtime, but it
will in the require-bundle case. And this will manifest as multiple
entries in the import list which export the same package.
But even this isn't an issue, as long as dependency resolution relies
solely on declared exports and re-exports of a module, and not on what
is available by browsing the imports of that module.
So I'm back to my original statement that we just need to acknowledge
that package duplication may exist in an import list.
Or am I missing something here?
I am just not sure why we want to make the fact that some module systems
support split packages a visible concept in our "interoperability API",
when it would be difficult to get interoperability around split packages
across module systems when we already have issues with split packages
within a single module system. Especially, given my description above,
since we would not easily know which modules were contributing to a
split package in OSGi.
-> richard
I think that is fairly complete description of the situation, sorry
if it is somewhat terse. In summary, I wouldn't assume that we can
get reasonable interoperability at this level. If you need these
types of features, then you should stick to a single modularity
framework...preferably OSGi. ;-)
But my overall point is, I believe that if we can support
interoperability at module- and package-level dependencies across
module systems, then I think we would hit most use cases.
-> richard
Sam
On Apr 25, 2008, at 1:57 PM, Richard S. Hall wrote:
Bryan Atsatt wrote:
Richard S. Hall wrote:
Gordon Hirsch wrote:
1. Map its dependency declarations into a standard runtime
representation.
2. Support a standard search model over its stored modules,
using the runtime dependency expressions.
3. Map its stored module data into a standard runtime
representation that can be returned by the search.
One challenge lies in defining the "standard runtime
representations" and "standard search model" in a universal
enough way to encompass OSGi and other module systems. This
implies embracing concepts (in these standard representations
and search model) that were not universally liked by the EG
early on. (Split packages and package-level import/export come
to mind.)
Package-level import/export seem like a must, but I still don't
see split packages as a necessity.
Strongly agreed on import-by-package, and that ModuleDefinition
requires a method to enumerate exported packages (and probably an
exportsPackage(String packageName) method to enable an efficient
Query).
On the split package front, however, it seems a little fuzzy to
me. If an OSGi implementation of 277 is also going to remain OSGi
Rx compliant, it will still need to support split packages, right?
If so, don't we need to surface this fact at the 277 level?
Perhaps that is as simple as acknowledging that
Module.getImportedModules() may return more than one instance that
exports a given package.
That all depends on if the 277 API is a subset of OSGi
functionality or equal to it, I suppose.
-> richard
// Bryan