RFR: 8254231: Implementation of Foreign Linker API (Incubator) [v7]

[Maurizio Cimadamore]

> This patch contains the changes associated with the first incubation round of the foreign linker access API incubation
> (see JEP 389 [1]). This work is meant to sit on top of the foreign memory access support (see JEP 393 [2] and
> associated pull request [3]).
> The main goal of this API is to provide a way to call native functions from Java code without the need of intermediate
> JNI glue code. In order to do this, native calls are modeled through the MethodHandle API. I suggest reading the
> writeup [4] I put together few weeks ago, which illustrates what the foreign linker support is, and how it should be
> used by clients.  Disclaimer: the pull request mechanism isn't great at managing *dependent* reviews. For this reasons,
> I'm attaching a webrev which contains only the differences between this PR and the memory access PR. I will be
> periodically uploading new webrevs, as new iterations come out, to try and make the life of reviewers as simple as
> possible.  A big thank to Jorn Vernee and Vladimir Ivanov - they are the main architects of all the hotspot changes you
> see here, and without their help, the foreign linker support wouldn't be what it is today. As usual, a big thank to
> Paul Sandoz, who provided many insights (often by trying the bits first hand).  Thanks Maurizio
> Webrev:
> http://cr.openjdk.java.net/~mcimadamore/8254231_v1/webrev
> 
> Javadoc:
> 
> http://cr.openjdk.java.net/~mcimadamore/8254231_v1/javadoc/jdk/incubator/foreign/package-summary.html
> 
> Specdiff (relative to [3]):
> 
> http://cr.openjdk.java.net/~mcimadamore/8254231_v1/specdiff_delta/overview-summary.html
> 
> CSR:
> 
> https://bugs.openjdk.java.net/browse/JDK-8254232
> 
> 
> 
> ### API Changes
> 
> The API changes are actually rather slim:
> 
> * `LibraryLookup`
>   * This class allows clients to lookup symbols in native libraries; the interface is fairly simple; you can load a library
>     by name, or absolute path, and then lookup symbols on that library.
> * `FunctionDescriptor`
>   * This is an abstraction that is very similar, in spirit, to `MethodType`; it is, at its core, an aggregate of memory
>     layouts for the function arguments/return type. A function descriptor is used to describe the signature of a native
>     function.
> * `CLinker`
>   * This is the real star of the show. A `CLinker` has two main methods: `downcallHandle` and `upcallStub`; the first takes
>     a native symbol (as obtained from `LibraryLookup`), a `MethodType` and a `FunctionDescriptor` and returns a
>     `MethodHandle` instance which can be used to call the target native symbol. The second takes an existing method handle,
>     and a `FunctionDescriptor` and returns a new `MemorySegment` corresponding to a code stub allocated by the VM which
>     acts as a trampoline from native code to the user-provided method handle. This is very useful for implementing upcalls.
>    * This class also contains the various layout constants that should be used by clients when describing native signatures
>      (e.g. `C_LONG` and friends); these layouts contain additional ABI classfication information (in the form of layout
>      attributes) which is used by the runtime to *infer* how Java arguments should be shuffled for the native call to take
>      place.
>   * Finally, this class provides some helper functions e.g. so that clients can convert Java strings into C strings and
>     back.
> * `NativeScope`
>   * This is an helper class which allows clients to group together logically related allocations; that is, rather than
>     allocating separate memory segments using separate *try-with-resource* constructs, a `NativeScope` allows clients to
>     use a _single_ block, and allocate all the required segments there. This is not only an usability boost, but also a
>     performance boost, since not all allocation requests will be turned into `malloc` calls.
> * `MemorySegment`
>   * Only one method added here - namely `handoff(NativeScope)` which allows a segment to be transferred onto an existing
>     native scope.
> 
> ### Safety
> 
> The foreign linker API is intrinsically unsafe; many things can go wrong when requesting a native method handle. For
> instance, the description of the native signature might be wrong (e.g. have too many arguments) - and the runtime has,
> in the general case, no way to detect such mismatches. For these reasons, obtaining a `CLinker` instance is
> a *restricted* operation, which can be enabled by specifying the usual JDK property `-Dforeign.restricted=permit` (as
> it's the case for other restricted method in the foreign memory API).  ### Implementation changes  The Java changes
> associated with `LibraryLookup` are relative straightforward; the only interesting thing to note here is that library
> loading does _not_ depend on class loaders, so `LibraryLookup` is not subject to the same restrictions which apply to
> JNI library loading (e.g. same library cannot be loaded by different classloaders).  As for `NativeScope` the changes
> are again relatively straightforward; it is an API which sits neatly on top of the foreign meory access API, providing
> some kind of allocation service which shares the same underlying memory segment(s), and turns an allocation request
> into a segment slice, which is a much less expensive operation. `NativeScope` comes in two variants: there are native
> scopes for which the allocation size is known a priori, and native scopes which can grow - these two schemes are
> implemented by two separate subclasses of `AbstractNativeScopeImpl`.  Of course the bulk of the changes are to support
> the `CLinker` downcall/upcall routines. These changes cut pretty deep into the JVM; I'll briefly summarize the goal of
> some of this changes - for further details, Jorn has put together a detailed writeup which explains the rationale
> behind the VM support, with some references to the code [5].  The main idea behind foreign linker is to infer, given a
> Java method type (expressed as a `MethodType` instance) and the description of the signature of a native function
> (expressed as a `FunctionDescriptor` instance) a _recipe_ that can be used to turn a Java call into the corresponding
> native call targeting the requested native function.  This inference scheme can be defined in a pretty straightforward
> fashion by looking at the various ABI specifications (for instance, see [6] for the SysV ABI, which is the one used on
> Linux/Mac). The various `CallArranger` classes, of which we have a flavor for each supported platform, do exactly that
> kind of inference.  For the inference process to work, we need to attach extra information to memory layouts; it is no
> longer sufficient to know e.g. that a layout is 32/64 bits - we need to know whether it is meant to represent a
> floating point value, or an integral value; this knowledge is required because floating points are passed in different
> registers by most ABIs. For this reason, `CLinker` offers a set of pre-baked, platform-dependent layout constants which
> contain the required classification attributes (e.g. a `Clinker.TypeKind` enum value). The runtime extracts this
> attribute, and performs classification accordingly.  A native call is decomposed into a sequence of basic, primitive
> operations, called `Binding` (see the great javadoc on the `Binding.java` class for more info). There are many such
> bindings - for instance the `Move` binding is used to move a value into a specific machine register/stack slot. So, the
> main job of the various `CallingArranger` classes is to determine, given a Java `MethodType` and `FunctionDescriptor`
> what is the set of bindings associated with the downcall/upcall.  At the heart of the foreign linker support is the
> `ProgrammableInvoker` class. This class effectively generates a `MethodHandle` which follows the steps described by the
> various bindings obtained by `CallArranger`. There are actually various strategies to interpret these bindings - listed
> below:
> * basic intepreted mode; in this mode, all bindings are interpreted using a stack-based machine written in Java (see
>   `BindingInterpreter`), except for the `Move` bindings. For these bindings, the move is implemented by allocating
>   a *buffer* (whose size is ABI specific) and by moving all the lowered values into positions within this buffer. The
>   buffer is then passed to a piece of assembly code inside the VM which takes values from the buffer and moves them in
>   their expected registers/stack slots (note that each position in the buffer corresponds to a different register). This
>   is the most general invocation mode, the more "customizable" one, but also the slowest - since for every call there is
>   some extra allocation which takes place.
> 
> * specialized interpreted mode; same as before, but instead of interpreting the bindings with a stack-based interpreter,
>   we generate a method handle chain which effectively interprets all the bindings (again, except `Move` ones).
> 
> * intrinsified mode; this is typically used in combination with the specialized interpreted mode described above
>   (although it can also be used with the Java-based binding interpreter). The goal here is to remove the buffer
>   allocation and copy by introducing an additional JVM intrinsic. If a native call recipe is constant (e.g. the set of
>   bindings is constant, which is probably the case if the native method handle is stored in a `static`, `final` field),
>   then the VM can generate specialized assembly code which interprets the `Move` binding without the need to go for an
>   intermediate buffer. This gives us back performances that are on par with JNI.
> 
> For upcalls, the support is not (yet) as advanced, and only the basic interpreted mode is available there. We plan to
> add support for intrinsified modes there as well, which should considerably boost perfomances (probably well beyond
> what JNI can offer at the moment, since the upcall support in JNI is not very well optimized).  Again, for more
> readings on the internals of the foreign linker support, please refer to [5].
> #### Test changes
> 
> Many new tests have been added to validate the foreign linker support; we have high level tests (see `StdLibTest`)
> which aim at testing the linker from the perspective of code that clients could write. But we also have deeper
> combinatorial tests (see `TestUpcall` and `TestDowncall`) which are meant to stress every corner of the ABI
> implementation. There are also some great tests (see the `callarranger` folder) which test the various `CallArranger`s
> for all the possible platforms; these tests adopt more of a white-box approach - that is, instead of treating the
> linker machinery as a black box and verify that the support works by checking that the native call returned the results
> we expected, these tests aims at checking that the set of bindings generated by the call arranger is correct. This also
> mean that we can test the classification logic for Windows, Mac and Linux regardless of the platform we're executing
> on.  Some additional microbenchmarks have been added to compare the performances of downcall/upcall with JNI.  [1] -
> https://openjdk.java.net/jeps/389 [2] - https://openjdk.java.net/jeps/393 [3] -
> https://git.openjdk.java.net/jdk/pull/548 [4] -
> https://github.com/openjdk/panama-foreign/blob/foreign-jextract/doc/panama_ffi.md [5] -
> http://cr.openjdk.java.net/~jvernee/docs/Foreign-abi%20downcall%20intrinsics%20technical%20description.html

Maurizio Cimadamore has updated the pull request with a new target base due to a merge or a rebase. The pull request
now contains 25 commits:

 - Merge branch 'master' into 8254231_linker
 - Fix incorrect capitalization in one copyright header
 - Update copyright years, and add classpath exception to files that were missing it
 - Use separate constants for native invoker code size
 - Re-add file erroneously deleted (detected as rename)
 - Re-add erroneously removed files
 - Merge branch 'master' into 8254231_linker
   
   - Fix tests
 - Fix more whitespaces
 - Fix whitespaces
 - Remove rejected file
 - ... and 15 more: https://git.openjdk.java.net/jdk/compare/cb6167b2...502bd980

-------------

Changes: https://git.openjdk.java.net/jdk/pull/634/files
 Webrev: https://webrevs.openjdk.java.net/?repo=jdk&pr=634&range=06
  Stats: 75609 lines in 264 files changed: 72724 ins; 1608 del; 1277 mod
  Patch: https://git.openjdk.java.net/jdk/pull/634.diff
  Fetch: git fetch https://git.openjdk.java.net/jdk pull/634/head:pull/634

PR: https://git.openjdk.java.net/jdk/pull/634