forked from OSchip/llvm-project
132 lines
4.9 KiB
C++
132 lines
4.9 KiB
C++
//===- BuiltinGCs.cpp - Boilerplate for our built in GC types -------------===//
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//
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// The LLVM Compiler Infrastructure
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//
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// This file is distributed under the University of Illinois Open Source
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// License. See LICENSE.TXT for details.
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//
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//===----------------------------------------------------------------------===//
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//
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// This file contains the boilerplate required to define our various built in
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// gc lowering strategies.
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//
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//===----------------------------------------------------------------------===//
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#include "llvm/CodeGen/BuiltinGCs.h"
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#include "llvm/CodeGen/GCStrategy.h"
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#include "llvm/IR/DerivedTypes.h"
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#include "llvm/Support/Casting.h"
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using namespace llvm;
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namespace {
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/// An example GC which attempts to be compatibile with Erlang/OTP garbage
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/// collector.
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///
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/// The frametable emitter is in ErlangGCPrinter.cpp.
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class ErlangGC : public GCStrategy {
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public:
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ErlangGC() {
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NeededSafePoints = true;
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UsesMetadata = true;
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}
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};
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/// An example GC which attempts to be compatible with Objective Caml 3.10.0
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///
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/// The frametable emitter is in OcamlGCPrinter.cpp.
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class OcamlGC : public GCStrategy {
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public:
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OcamlGC() {
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NeededSafePoints = true;
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UsesMetadata = true;
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}
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};
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/// A GC strategy for uncooperative targets. This implements lowering for the
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/// llvm.gc* intrinsics for targets that do not natively support them (which
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/// includes the C backend). Note that the code generated is not quite as
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/// efficient as algorithms which generate stack maps to identify roots.
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///
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/// In order to support this particular transformation, all stack roots are
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/// coallocated in the stack. This allows a fully target-independent stack map
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/// while introducing only minor runtime overhead.
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class ShadowStackGC : public GCStrategy {
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public:
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ShadowStackGC() {}
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};
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/// A GCStrategy which serves as an example for the usage of a statepoint based
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/// lowering strategy. This GCStrategy is intended to suitable as a default
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/// implementation usable with any collector which can consume the standard
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/// stackmap format generated by statepoints, uses the default addrespace to
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/// distinguish between gc managed and non-gc managed pointers, and has
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/// reasonable relocation semantics.
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class StatepointGC : public GCStrategy {
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public:
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StatepointGC() {
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UseStatepoints = true;
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// These options are all gc.root specific, we specify them so that the
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// gc.root lowering code doesn't run.
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NeededSafePoints = false;
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UsesMetadata = false;
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}
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Optional<bool> isGCManagedPointer(const Type *Ty) const override {
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// Method is only valid on pointer typed values.
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const PointerType *PT = cast<PointerType>(Ty);
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// For the sake of this example GC, we arbitrarily pick addrspace(1) as our
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// GC managed heap. We know that a pointer into this heap needs to be
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// updated and that no other pointer does. Note that addrspace(1) is used
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// only as an example, it has no special meaning, and is not reserved for
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// GC usage.
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return (1 == PT->getAddressSpace());
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}
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};
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/// A GCStrategy for the CoreCLR Runtime. The strategy is similar to
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/// Statepoint-example GC, but differs from it in certain aspects, such as:
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/// 1) Base-pointers need not be explicitly tracked and reported for
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/// interior pointers
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/// 2) Uses a different format for encoding stack-maps
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/// 3) Location of Safe-point polls: polls are only needed before loop-back
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/// edges and before tail-calls (not needed at function-entry)
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///
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/// The above differences in behavior are to be implemented in upcoming
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/// checkins.
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class CoreCLRGC : public GCStrategy {
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public:
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CoreCLRGC() {
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UseStatepoints = true;
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// These options are all gc.root specific, we specify them so that the
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// gc.root lowering code doesn't run.
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NeededSafePoints = false;
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UsesMetadata = false;
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}
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Optional<bool> isGCManagedPointer(const Type *Ty) const override {
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// Method is only valid on pointer typed values.
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const PointerType *PT = cast<PointerType>(Ty);
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// We pick addrspace(1) as our GC managed heap.
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return (1 == PT->getAddressSpace());
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}
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};
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} // end anonymous namespace
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// Register all the above so that they can be found at runtime. Note that
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// these static initializers are important since the registration list is
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// constructed from their storage.
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static GCRegistry::Add<ErlangGC> A("erlang",
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"erlang-compatible garbage collector");
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static GCRegistry::Add<OcamlGC> B("ocaml", "ocaml 3.10-compatible GC");
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static GCRegistry::Add<ShadowStackGC>
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C("shadow-stack", "Very portable GC for uncooperative code generators");
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static GCRegistry::Add<StatepointGC> D("statepoint-example",
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"an example strategy for statepoint");
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static GCRegistry::Add<CoreCLRGC> E("coreclr", "CoreCLR-compatible GC");
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// Provide hook to ensure the containing library is fully loaded.
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void llvm::linkAllBuiltinGCs() {}
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