[Mlir-commits] [mlir] [mlir][gpu] Add metadata attributes for storing kernel metadata in GPU objects (PR #95292)
Fabian Mora
llvmlistbot at llvm.org
Tue Jul 30 08:31:07 PDT 2024
https://github.com/fabianmcg updated https://github.com/llvm/llvm-project/pull/95292
>From 26050b5740d0af525e1c04a568e0c1665ca11e05 Mon Sep 17 00:00:00 2001
From: Fabian Mora <fmora.dev at gmail.com>
Date: Wed, 12 Jun 2024 20:49:09 +0000
Subject: [PATCH 1/5] move to gpu
---
mlir/include/mlir-c/Dialect/GPU.h | 3 +-
.../mlir/Dialect/GPU/IR/CompilationAttrs.td | 147 +++++++++++-
mlir/include/mlir/Target/LLVM/ROCDL/Utils.h | 7 +
mlir/lib/CAPI/Dialect/GPU.cpp | 12 +-
mlir/lib/Dialect/GPU/IR/GPUDialect.cpp | 37 ++-
mlir/lib/Target/LLVM/CMakeLists.txt | 2 +
mlir/lib/Target/LLVM/NVVM/Target.cpp | 2 +-
mlir/lib/Target/LLVM/ROCDL/Target.cpp | 6 +-
mlir/lib/Target/LLVM/ROCDL/Utils.cpp | 226 ++++++++++++++++++
mlir/lib/Target/SPIRV/Target.cpp | 2 +-
mlir/test/Dialect/GPU/ops.mlir | 6 +
.../Target/LLVM/SerializeROCDLTarget.cpp | 45 ++++
12 files changed, 483 insertions(+), 12 deletions(-)
create mode 100644 mlir/lib/Target/LLVM/ROCDL/Utils.cpp
diff --git a/mlir/include/mlir-c/Dialect/GPU.h b/mlir/include/mlir-c/Dialect/GPU.h
index c42ff61f9592c..0c2a603ed9b89 100644
--- a/mlir/include/mlir-c/Dialect/GPU.h
+++ b/mlir/include/mlir-c/Dialect/GPU.h
@@ -35,7 +35,8 @@ MLIR_CAPI_EXPORTED bool mlirAttributeIsAGPUObjectAttr(MlirAttribute attr);
MLIR_CAPI_EXPORTED MlirAttribute
mlirGPUObjectAttrGet(MlirContext mlirCtx, MlirAttribute target, uint32_t format,
- MlirStringRef objectStrRef, MlirAttribute mlirObjectProps);
+ MlirStringRef objectStrRef, MlirAttribute mlirObjectProps,
+ MlirAttribute mlirKernelsAttr);
MLIR_CAPI_EXPORTED MlirAttribute
mlirGPUObjectAttrGetTarget(MlirAttribute mlirObjectAttr);
diff --git a/mlir/include/mlir/Dialect/GPU/IR/CompilationAttrs.td b/mlir/include/mlir/Dialect/GPU/IR/CompilationAttrs.td
index 6659f4a2c58e8..f4037b55c85b4 100644
--- a/mlir/include/mlir/Dialect/GPU/IR/CompilationAttrs.td
+++ b/mlir/include/mlir/Dialect/GPU/IR/CompilationAttrs.td
@@ -16,6 +16,136 @@
include "mlir/Dialect/GPU/IR/GPUBase.td"
include "mlir/Dialect/GPU/IR/CompilationAttrInterfaces.td"
+//===----------------------------------------------------------------------===//
+// GPU kernel attribute
+//===----------------------------------------------------------------------===//
+
+def GPU_KernelAttr : GPU_Attr<"Kernel", "kernel"> {
+ let description = [{
+ GPU attribute for storing metadata related to a compiled kernel. It
+ contains the attribute dictionary of the LLVM function used to generate the
+ kernel, as well as an optional dictionary for additional metadata, like
+ occupancy information.
+
+ Examples:
+ ```mlir
+ #gpu.kernel<{sym_name = "test_fusion__part_0", ...},
+ metadata = {reg_count = 255, ...}>
+ ```
+ }];
+ let parameters = (ins
+ "DictionaryAttr":$func_attrs,
+ OptionalParameter<"DictionaryAttr", "metadata dictionary">:$metadata
+ );
+ let assemblyFormat = [{
+ `<` $func_attrs (`,` `metadata` `=` $metadata^ )? `>`
+ }];
+ let builders = [
+ AttrBuilderWithInferredContext<(ins "DictionaryAttr":$funcAttrs,
+ CArg<"DictionaryAttr",
+ "nullptr">:$metadata), [{
+ assert(funcAttrs && "invalid function attributes dictionary");
+ return $_get(funcAttrs.getContext(), funcAttrs, metadata);
+ }]>,
+ AttrBuilderWithInferredContext<(ins "Operation*":$kernel,
+ CArg<"DictionaryAttr",
+ "nullptr">:$metadata)>
+ ];
+ let extraClassDeclaration = [{
+ /// Returns the function attribute corresponding to key or nullptr if missing.
+ Attribute getAttr(StringRef key) const {
+ return getFuncAttrs().get(key);
+ }
+ template <typename ConcreteAttr>
+ ConcreteAttr getAttr(StringRef key) const {
+ return llvm::dyn_cast_or_null<ConcreteAttr>(getAttr(key));
+ }
+ Attribute getAttr(StringAttr key) const;
+ template <typename ConcreteAttr>
+ ConcreteAttr getAttr(StringAttr key) const {
+ return llvm::dyn_cast_or_null<ConcreteAttr>(getAttr(key));
+ }
+
+ /// Returns the name of the kernel.
+ StringAttr getName() const {
+ return getAttr<StringAttr>("sym_name");
+ }
+
+ /// Returns the metadta attribute corresponding to key or nullptr if missing.
+ Attribute getMDAttr(StringRef key) const {
+ if (DictionaryAttr attrs = getMetadata())
+ return attrs.get(key);
+ return nullptr;
+ }
+ template <typename ConcreteAttr>
+ ConcreteAttr getMDAttr(StringRef key) const {
+ return llvm::dyn_cast_or_null<ConcreteAttr>(getMDAttr(key));
+ }
+ Attribute getMDAttr(StringAttr key) const;
+ template <typename ConcreteAttr>
+ ConcreteAttr getMDAttr(StringAttr key) const {
+ return llvm::dyn_cast_or_null<ConcreteAttr>(getMDAttr(key));
+ }
+
+ /// Helper function for appending metadata to a kernel attribute.
+ KernelAttr appendMetadata(ArrayRef<NamedAttribute> attrs) const;
+ }];
+}
+
+//===----------------------------------------------------------------------===//
+// GPU kernel table attribute
+//===----------------------------------------------------------------------===//
+
+def GPU_KernelTableAttr : GPU_Attr<"KernelTable", "kernel_table"> {
+ let description = [{
+ GPU attribute representing a table of kernels metadata. All the attributes
+ in the dictionary must be of type `#gpu.kernel`.
+
+ Examples:
+ ```mlir
+ #gpu.kernel_table<{kernel0 = #gpu.kernel<...>}>
+ ```
+ }];
+ let parameters = (ins
+ "DictionaryAttr":$kernel_table
+ );
+ let assemblyFormat = [{
+ `<` $kernel_table `>`
+ }];
+ let builders = [
+ AttrBuilderWithInferredContext<(ins "DictionaryAttr":$kernel_table), [{
+ assert(kernel_table && "invalid kernel table");
+ return $_get(kernel_table.getContext(), kernel_table);
+ }]>
+ ];
+ let skipDefaultBuilders = 1;
+ let genVerifyDecl = 1;
+ let extraClassDeclaration = [{
+ /// Helper iterator class for traversing the kernel table.
+ struct KernelIterator
+ : llvm::mapped_iterator_base<KernelIterator,
+ llvm::ArrayRef<NamedAttribute>::iterator,
+ std::pair<StringAttr, KernelAttr>> {
+ using llvm::mapped_iterator_base<
+ KernelIterator, llvm::ArrayRef<NamedAttribute>::iterator,
+ std::pair<StringAttr, KernelAttr>>::mapped_iterator_base;
+ /// Map the iterator to the kernel name and a KernelAttribute.
+ std::pair<StringAttr, KernelAttr> mapElement(NamedAttribute attr) const {
+ return {attr.getName(), llvm::cast<KernelAttr>(attr.getValue())};
+ }
+ };
+ auto begin() const {
+ return KernelIterator(getKernelTable().begin());
+ }
+ auto end() const {
+ return KernelIterator(getKernelTable().end());
+ }
+ size_t size() const {
+ return getKernelTable().size();
+ }
+ }];
+}
+
//===----------------------------------------------------------------------===//
// GPU object attribute.
//===----------------------------------------------------------------------===//
@@ -63,16 +193,29 @@ def GPU_ObjectAttr : GPU_Attr<"Object", "object"> {
#gpu.object<#nvvm.target, properties = {O = 3 : i32}, assembly = "..."> // An assembly object with additional properties.
#gpu.object<#rocdl.target, bin = "..."> // A binary object.
#gpu.object<#nvvm.target, "..."> // A fatbin object.
+ #gpu.object<#nvvm.target, kernels = #gpu.kernel_table<...>, "..."> // An object with a kernel table.
```
}];
let parameters = (ins
"Attribute":$target,
DefaultValuedParameter<"CompilationTarget", "CompilationTarget::Fatbin">:$format,
"StringAttr":$object,
- OptionalParameter<"DictionaryAttr">:$properties
+ OptionalParameter<"DictionaryAttr">:$properties,
+ OptionalParameter<"KernelTableAttr">:$kernels
);
+ let builders = [
+ AttrBuilderWithInferredContext<(ins "Attribute":$target,
+ "CompilationTarget":$format,
+ "StringAttr":$object,
+ CArg<"DictionaryAttr", "nullptr">:$properties,
+ CArg<"KernelTableAttr", "nullptr">:$kernels), [{
+ assert(target && "invalid target");
+ return $_get(target.getContext(), target, format, object, properties, kernels);
+ }]>
+ ];
let assemblyFormat = [{ `<`
- $target `,` (`properties` `=` $properties ^ `,`)?
+ $target `,` (`properties` `=` $properties^ `,`)?
+ (`kernels` `=` $kernels^ `,`)?
custom<Object>($format, $object)
`>`
}];
diff --git a/mlir/include/mlir/Target/LLVM/ROCDL/Utils.h b/mlir/include/mlir/Target/LLVM/ROCDL/Utils.h
index 3c637a01b0e3b..904d60a2a75db 100644
--- a/mlir/include/mlir/Target/LLVM/ROCDL/Utils.h
+++ b/mlir/include/mlir/Target/LLVM/ROCDL/Utils.h
@@ -14,6 +14,7 @@
#define MLIR_TARGET_LLVM_ROCDL_UTILS_H
#include "mlir/Dialect/GPU/IR/CompilationInterfaces.h"
+#include "mlir/Dialect/GPU/IR/GPUDialect.h"
#include "mlir/Dialect/LLVMIR/ROCDLDialect.h"
#include "mlir/Support/LLVM.h"
#include "mlir/Target/LLVM/ModuleToObject.h"
@@ -107,6 +108,12 @@ class SerializeGPUModuleBase : public LLVM::ModuleToObject {
/// AMD GCN libraries to use when linking, the default is using none.
AMDGCNLibraries deviceLibs = AMDGCNLibraries::None;
};
+
+/// Returns a `#gpu.kernel_table` containing kernel metadata for each of the
+/// kernels in `gpuModule`. If `elfData` is valid, then the `amdhsa.kernels` ELF
+/// metadata will be added to the `#gpu.kernel_table`.
+gpu::KernelTableAttr getAMDHSAKernelsMetadata(Operation *gpuModule,
+ ArrayRef<char> elfData = {});
} // namespace ROCDL
} // namespace mlir
diff --git a/mlir/lib/CAPI/Dialect/GPU.cpp b/mlir/lib/CAPI/Dialect/GPU.cpp
index 0acebb2300429..ffe60658cb2ce 100644
--- a/mlir/lib/CAPI/Dialect/GPU.cpp
+++ b/mlir/lib/CAPI/Dialect/GPU.cpp
@@ -37,15 +37,19 @@ bool mlirAttributeIsAGPUObjectAttr(MlirAttribute attr) {
MlirAttribute mlirGPUObjectAttrGet(MlirContext mlirCtx, MlirAttribute target,
uint32_t format, MlirStringRef objectStrRef,
- MlirAttribute mlirObjectProps) {
+ MlirAttribute mlirObjectProps,
+ MlirAttribute mlirKernelsAttr) {
MLIRContext *ctx = unwrap(mlirCtx);
llvm::StringRef object = unwrap(objectStrRef);
DictionaryAttr objectProps;
if (mlirObjectProps.ptr != nullptr)
objectProps = llvm::cast<DictionaryAttr>(unwrap(mlirObjectProps));
- return wrap(gpu::ObjectAttr::get(ctx, unwrap(target),
- static_cast<gpu::CompilationTarget>(format),
- StringAttr::get(ctx, object), objectProps));
+ gpu::KernelTableAttr kernels;
+ if (mlirKernelsAttr.ptr != nullptr)
+ kernels = llvm::cast<gpu::KernelTableAttr>(unwrap(mlirKernelsAttr));
+ return wrap(gpu::ObjectAttr::get(
+ ctx, unwrap(target), static_cast<gpu::CompilationTarget>(format),
+ StringAttr::get(ctx, object), objectProps, kernels));
}
MlirAttribute mlirGPUObjectAttrGetTarget(MlirAttribute mlirObjectAttr) {
diff --git a/mlir/lib/Dialect/GPU/IR/GPUDialect.cpp b/mlir/lib/Dialect/GPU/IR/GPUDialect.cpp
index 7bc2668310ddb..7873a0f89ef94 100644
--- a/mlir/lib/Dialect/GPU/IR/GPUDialect.cpp
+++ b/mlir/lib/Dialect/GPU/IR/GPUDialect.cpp
@@ -2147,7 +2147,8 @@ void AllocOp::getCanonicalizationPatterns(RewritePatternSet &results,
LogicalResult ObjectAttr::verify(function_ref<InFlightDiagnostic()> emitError,
Attribute target, CompilationTarget format,
- StringAttr object, DictionaryAttr properties) {
+ StringAttr object, DictionaryAttr properties,
+ KernelTableAttr kernels) {
if (!target)
return emitError() << "the target attribute cannot be null";
if (target.hasPromiseOrImplementsInterface<TargetAttrInterface>())
@@ -2233,6 +2234,40 @@ LogicalResult gpu::DynamicSharedMemoryOp::verify() {
return success();
}
+//===----------------------------------------------------------------------===//
+// GPU KernelAttr
+//===----------------------------------------------------------------------===//
+
+KernelAttr KernelAttr::get(Operation *kernelOp, DictionaryAttr metadata) {
+ assert(kernelOp && "invalid kernel");
+ return get(kernelOp->getAttrDictionary(), metadata);
+}
+
+KernelAttr KernelAttr::appendMetadata(ArrayRef<NamedAttribute> attrs) const {
+ if (attrs.empty())
+ return *this;
+ NamedAttrList attrList(attrs);
+ attrList.append(getMetadata());
+ return KernelAttr::get(getFuncAttrs(), attrList.getDictionary(getContext()));
+}
+
+//===----------------------------------------------------------------------===//
+// GPU KernelTableAttr
+//===----------------------------------------------------------------------===//
+
+LogicalResult
+KernelTableAttr::verify(function_ref<InFlightDiagnostic()> emitError,
+ DictionaryAttr dict) {
+ if (!dict)
+ return emitError() << "table cannot be null";
+ if (llvm::any_of(dict, [](NamedAttribute attr) {
+ return !llvm::isa<KernelAttr>(attr.getValue());
+ }))
+ return emitError()
+ << "all the dictionary values must be `#gpu.kernel` attributes";
+ return success();
+}
+
//===----------------------------------------------------------------------===//
// GPU target options
//===----------------------------------------------------------------------===//
diff --git a/mlir/lib/Target/LLVM/CMakeLists.txt b/mlir/lib/Target/LLVM/CMakeLists.txt
index 93dc5ff9d35b7..4999ce00ba5bc 100644
--- a/mlir/lib/Target/LLVM/CMakeLists.txt
+++ b/mlir/lib/Target/LLVM/CMakeLists.txt
@@ -110,11 +110,13 @@ endif()
add_mlir_dialect_library(MLIRROCDLTarget
ROCDL/Target.cpp
+ ROCDL/Utils.cpp
OBJECT
LINK_COMPONENTS
MCParser
+ Object
${AMDGPU_LIBS}
LINK_LIBS PUBLIC
diff --git a/mlir/lib/Target/LLVM/NVVM/Target.cpp b/mlir/lib/Target/LLVM/NVVM/Target.cpp
index e608d26e8d2ec..a5099dc033765 100644
--- a/mlir/lib/Target/LLVM/NVVM/Target.cpp
+++ b/mlir/lib/Target/LLVM/NVVM/Target.cpp
@@ -604,5 +604,5 @@ NVVMTargetAttrImpl::createObject(Attribute attribute,
return builder.getAttr<gpu::ObjectAttr>(
attribute, format,
builder.getStringAttr(StringRef(object.data(), object.size())),
- objectProps);
+ objectProps, nullptr);
}
diff --git a/mlir/lib/Target/LLVM/ROCDL/Target.cpp b/mlir/lib/Target/LLVM/ROCDL/Target.cpp
index 4d23f987eb05e..42053e3ec18d3 100644
--- a/mlir/lib/Target/LLVM/ROCDL/Target.cpp
+++ b/mlir/lib/Target/LLVM/ROCDL/Target.cpp
@@ -512,7 +512,9 @@ ROCDLTargetAttrImpl::createObject(Attribute attribute,
DictionaryAttr properties{};
Builder builder(attribute.getContext());
return builder.getAttr<gpu::ObjectAttr>(
- attribute, format,
+ attribute,
+ format > gpu::CompilationTarget::Binary ? gpu::CompilationTarget::Binary
+ : format,
builder.getStringAttr(StringRef(object.data(), object.size())),
- properties);
+ properties, nullptr);
}
diff --git a/mlir/lib/Target/LLVM/ROCDL/Utils.cpp b/mlir/lib/Target/LLVM/ROCDL/Utils.cpp
new file mode 100644
index 0000000000000..5029293bae2a6
--- /dev/null
+++ b/mlir/lib/Target/LLVM/ROCDL/Utils.cpp
@@ -0,0 +1,226 @@
+//===- Utils.cpp - MLIR ROCDL target utils ----------------------*- C++ -*-===//
+//
+// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
+// See https://llvm.org/LICENSE.txt for license information.
+// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
+//
+//===----------------------------------------------------------------------===//
+//
+// This files defines ROCDL target related utility classes and functions.
+//
+//===----------------------------------------------------------------------===//
+
+#include "mlir/Target/LLVM/ROCDL/Utils.h"
+#include "mlir/Dialect/GPU/IR/GPUDialect.h"
+#include "mlir/Dialect/LLVMIR/ROCDLDialect.h"
+
+#include "llvm/ADT/StringMap.h"
+#include "llvm/BinaryFormat/MsgPackDocument.h"
+#include "llvm/Object/ELFObjectFile.h"
+#include "llvm/Object/ObjectFile.h"
+#include "llvm/Support/AMDGPUMetadata.h"
+
+using namespace mlir;
+using namespace mlir::ROCDL;
+
+/// Search the ELF object and return an object containing the `amdhsa.kernels`
+/// metadata note. Function adapted from:
+/// llvm-project/llvm/tools/llvm-readobj/ELFDumper.cpp Also see
+/// `amdhsa.kernels`:
+/// https://llvm.org/docs/AMDGPUUsage.html#code-object-v3-metadata
+template <typename ELFT>
+static std::optional<llvm::msgpack::Document>
+getAMDHSANote(llvm::object::ELFObjectFile<ELFT> &elfObj) {
+ using namespace llvm;
+ using namespace llvm::object;
+ using namespace llvm::ELF;
+ const ELFFile<ELFT> &elf = elfObj.getELFFile();
+ auto secOrErr = elf.sections();
+ if (!secOrErr)
+ return std::nullopt;
+ ArrayRef<typename ELFT::Shdr> sections = *secOrErr;
+ for (auto section : sections) {
+ if (section.sh_type != ELF::SHT_NOTE)
+ continue;
+ size_t align = std::max(static_cast<unsigned>(section.sh_addralign), 4u);
+ Error err = Error::success();
+ for (const typename ELFT::Note note : elf.notes(section, err)) {
+ StringRef name = note.getName();
+ if (name != "AMDGPU")
+ continue;
+ uint32_t type = note.getType();
+ if (type != ELF::NT_AMDGPU_METADATA)
+ continue;
+ ArrayRef<uint8_t> desc = note.getDesc(align);
+ StringRef msgPackString =
+ StringRef(reinterpret_cast<const char *>(desc.data()), desc.size());
+ msgpack::Document msgPackDoc;
+ if (!msgPackDoc.readFromBlob(msgPackString, /*Multi=*/false))
+ return std::nullopt;
+ if (msgPackDoc.getRoot().isScalar())
+ return std::nullopt;
+ return std::optional<llvm::msgpack::Document>(std::move(msgPackDoc));
+ }
+ }
+ return std::nullopt;
+}
+
+/// Return the `amdhsa.kernels` metadata in the ELF object or std::nullopt on
+/// failure. This is a helper function that casts a generic `ObjectFile` to the
+/// appropiate `ELFObjectFile`.
+static std::optional<llvm::msgpack::Document>
+getAMDHSANote(ArrayRef<char> elfData) {
+ using namespace llvm;
+ using namespace llvm::object;
+ if (elfData.empty())
+ return std::nullopt;
+ MemoryBufferRef buffer(StringRef(elfData.data(), elfData.size()), "buffer");
+ Expected<std::unique_ptr<ObjectFile>> objOrErr =
+ ObjectFile::createELFObjectFile(buffer);
+ if (!objOrErr || !objOrErr.get()) {
+ // Drop the error.
+ llvm::consumeError(objOrErr.takeError());
+ return std::nullopt;
+ }
+ ObjectFile &elf = *(objOrErr.get());
+ std::optional<llvm::msgpack::Document> metadata;
+ if (auto *obj = dyn_cast<ELF32LEObjectFile>(&elf))
+ metadata = getAMDHSANote(*obj);
+ else if (auto *obj = dyn_cast<ELF32BEObjectFile>(&elf))
+ metadata = getAMDHSANote(*obj);
+ else if (auto *obj = dyn_cast<ELF64LEObjectFile>(&elf))
+ metadata = getAMDHSANote(*obj);
+ else if (auto *obj = dyn_cast<ELF64BEObjectFile>(&elf))
+ metadata = getAMDHSANote(*obj);
+ return metadata;
+}
+
+/// Utility functions for converting `llvm::msgpack::DocNode` nodes.
+static Attribute convertNode(Builder &builder, llvm::msgpack::DocNode &node);
+static Attribute convertNode(Builder &builder,
+ llvm::msgpack::MapDocNode &node) {
+ NamedAttrList attrs;
+ for (auto kv : node) {
+ if (!kv.first.isString())
+ continue;
+ if (Attribute attr = convertNode(builder, kv.second)) {
+ auto key = kv.first.getString();
+ key.consume_front(".");
+ key.consume_back(".");
+ attrs.append(key, attr);
+ }
+ }
+ if (attrs.empty())
+ return nullptr;
+ return builder.getDictionaryAttr(attrs);
+}
+
+static Attribute convertNode(Builder &builder,
+ llvm::msgpack::ArrayDocNode &node) {
+ using NodeKind = llvm::msgpack::Type;
+ // Use `DenseIntAttr` if we know all the attrs are ints.
+ if (llvm::all_of(node, [](llvm::msgpack::DocNode &n) {
+ auto kind = n.getKind();
+ return kind == NodeKind::Int || kind == NodeKind::UInt;
+ })) {
+ SmallVector<int64_t> values;
+ for (llvm::msgpack::DocNode &n : node) {
+ auto kind = n.getKind();
+ if (kind == NodeKind::Int)
+ values.push_back(n.getInt());
+ else if (kind == NodeKind::UInt)
+ values.push_back(n.getUInt());
+ }
+ return builder.getDenseI64ArrayAttr(values);
+ }
+ // Convert the array.
+ SmallVector<Attribute> attrs;
+ for (llvm::msgpack::DocNode &n : node) {
+ if (Attribute attr = convertNode(builder, n))
+ attrs.push_back(attr);
+ }
+ if (attrs.empty())
+ return nullptr;
+ return builder.getArrayAttr(attrs);
+}
+
+static Attribute convertNode(Builder &builder, llvm::msgpack::DocNode &node) {
+ using namespace llvm::msgpack;
+ using NodeKind = llvm::msgpack::Type;
+ switch (node.getKind()) {
+ case NodeKind::Int:
+ return builder.getI64IntegerAttr(node.getInt());
+ case NodeKind::UInt:
+ return builder.getI64IntegerAttr(node.getUInt());
+ case NodeKind::Boolean:
+ return builder.getI64IntegerAttr(node.getBool());
+ case NodeKind::String:
+ return builder.getStringAttr(node.getString());
+ case NodeKind::Array:
+ return convertNode(builder, node.getArray());
+ case NodeKind::Map:
+ return convertNode(builder, node.getMap());
+ default:
+ return nullptr;
+ }
+}
+
+/// The following function should succeed for Code object V3 and above.
+static llvm::StringMap<DictionaryAttr> getELFMetadata(Builder &builder,
+ ArrayRef<char> elfData) {
+ std::optional<llvm::msgpack::Document> metadata = getAMDHSANote(elfData);
+ if (!metadata)
+ return {};
+ llvm::StringMap<DictionaryAttr> kernelMD;
+ llvm::msgpack::DocNode &root = (metadata)->getRoot();
+ // Fail if `root` is not a map -it should be for AMD Obj Ver 3.
+ if (!root.isMap())
+ return kernelMD;
+ auto &kernels = root.getMap()["amdhsa.kernels"];
+ // Fail if `amdhsa.kernels` is not an array.
+ if (!kernels.isArray())
+ return kernelMD;
+ // Convert each of the kernels.
+ for (auto &kernel : kernels.getArray()) {
+ if (!kernel.isMap())
+ continue;
+ auto &kernelMap = kernel.getMap();
+ auto &name = kernelMap[".name"];
+ if (!name.isString())
+ continue;
+ NamedAttrList attrList;
+ // Convert the kernel properties.
+ for (auto kv : kernelMap) {
+ if (!kv.first.isString())
+ continue;
+ StringRef key = kv.first.getString();
+ key.consume_front(".");
+ key.consume_back(".");
+ if (key == "name")
+ continue;
+ if (Attribute attr = convertNode(builder, kv.second))
+ attrList.append(key, attr);
+ }
+ if (!attrList.empty())
+ kernelMD[name.getString()] = builder.getDictionaryAttr(attrList);
+ }
+ return kernelMD;
+}
+
+gpu::KernelTableAttr
+mlir::ROCDL::getAMDHSAKernelsMetadata(Operation *gpuModule,
+ ArrayRef<char> elfData) {
+ auto module = cast<gpu::GPUModuleOp>(gpuModule);
+ Builder builder(module.getContext());
+ NamedAttrList moduleAttrs;
+ llvm::StringMap<DictionaryAttr> mdMap = getELFMetadata(builder, elfData);
+ for (auto funcOp : module.getBody()->getOps<LLVM::LLVMFuncOp>()) {
+ if (!funcOp->getDiscardableAttr("rocdl.kernel"))
+ continue;
+ moduleAttrs.append(
+ funcOp.getName(),
+ gpu::KernelAttr::get(funcOp, mdMap.lookup(funcOp.getName())));
+ }
+ return gpu::KernelTableAttr::get(
+ moduleAttrs.getDictionary(module.getContext()));
+}
diff --git a/mlir/lib/Target/SPIRV/Target.cpp b/mlir/lib/Target/SPIRV/Target.cpp
index 4c416abe71cac..e7651b5f3c767 100644
--- a/mlir/lib/Target/SPIRV/Target.cpp
+++ b/mlir/lib/Target/SPIRV/Target.cpp
@@ -98,5 +98,5 @@ SPIRVTargetAttrImpl::createObject(Attribute attribute,
return builder.getAttr<gpu::ObjectAttr>(
attribute, format,
builder.getStringAttr(StringRef(object.data(), object.size())),
- objectProps);
+ objectProps, nullptr);
}
diff --git a/mlir/test/Dialect/GPU/ops.mlir b/mlir/test/Dialect/GPU/ops.mlir
index ba7897f4e80cb..692ef2a5e3bef 100644
--- a/mlir/test/Dialect/GPU/ops.mlir
+++ b/mlir/test/Dialect/GPU/ops.mlir
@@ -441,3 +441,9 @@ gpu.module @module_with_two_target [#nvvm.target, #rocdl.target<chip = "gfx90a">
gpu.module @module_with_offload_handler <#gpu.select_object<0>> [#nvvm.target] {
}
+
+
+gpu.binary @binary [#gpu.object<#rocdl.target<chip = "gfx900">, kernels = #gpu.kernel_table<{
+ kernel0 = #gpu.kernel<{sym_name = "kernel0"}, metadata = {sgpr_count = 255}>,
+ kernel1 = #gpu.kernel<{sym_name = "kernel1"}>
+ }> , bin = "BLOB">]
diff --git a/mlir/unittests/Target/LLVM/SerializeROCDLTarget.cpp b/mlir/unittests/Target/LLVM/SerializeROCDLTarget.cpp
index 33291bc4bcaed..3d5c84efb6f4f 100644
--- a/mlir/unittests/Target/LLVM/SerializeROCDLTarget.cpp
+++ b/mlir/unittests/Target/LLVM/SerializeROCDLTarget.cpp
@@ -158,3 +158,48 @@ TEST_F(MLIRTargetLLVMROCDL, SKIP_WITHOUT_AMDGPU(SerializeROCDLToBinary)) {
ASSERT_FALSE(object->empty());
}
}
+
+// Test ROCDL metadata.
+TEST_F(MLIRTargetLLVMROCDL, SKIP_WITHOUT_AMDGPU(GetELFMetadata)) {
+ if (!hasROCMTools())
+ GTEST_SKIP() << "ROCm installation not found, skipping test.";
+
+ MLIRContext context(registry);
+
+ OwningOpRef<ModuleOp> module =
+ parseSourceString<ModuleOp>(moduleStr, &context);
+ ASSERT_TRUE(!!module);
+
+ // Create a ROCDL target.
+ ROCDL::ROCDLTargetAttr target = ROCDL::ROCDLTargetAttr::get(&context);
+
+ // Serialize the module.
+ auto serializer = dyn_cast<gpu::TargetAttrInterface>(target);
+ ASSERT_TRUE(!!serializer);
+ gpu::TargetOptions options("", {}, "", gpu::CompilationTarget::Binary);
+ for (auto gpuModule : (*module).getBody()->getOps<gpu::GPUModuleOp>()) {
+ std::optional<SmallVector<char, 0>> object =
+ serializer.serializeToObject(gpuModule, options);
+ // Check that the serializer was successful.
+ ASSERT_TRUE(object != std::nullopt);
+ ASSERT_FALSE(object->empty());
+ if (!object)
+ continue;
+ // Get the metadata.
+ gpu::KernelTableAttr metadata =
+ ROCDL::getAMDHSAKernelsMetadata(gpuModule, *object);
+ ASSERT_TRUE(metadata != nullptr);
+ // There should be only a single kernel.
+ ASSERT_TRUE(metadata.size() == 1);
+ // Test the `ROCDLObjectMDAttr` iterators.
+ for (auto [name, kernel] : metadata) {
+ ASSERT_TRUE(name.getValue() == "rocdl_kernel");
+ // Check that the ELF metadata is present.
+ ASSERT_TRUE(kernel.getMetadata() != nullptr);
+ // Verify that `sgpr_count` is present and it is an integer attribute.
+ ASSERT_TRUE(kernel.getMDAttr<IntegerAttr>("sgpr_count") != nullptr);
+ // Verify that `vgpr_count` is present and it is an integer attribute.
+ ASSERT_TRUE(kernel.getMDAttr<IntegerAttr>("vgpr_count") != nullptr);
+ }
+ }
+}
>From 73b6cfc3d696ff05994b7c650bb13a3371507407 Mon Sep 17 00:00:00 2001
From: Fabian Mora <fmora.dev at gmail.com>
Date: Wed, 12 Jun 2024 21:11:57 +0000
Subject: [PATCH 2/5] fix python bindings
---
mlir/include/mlir-c/Dialect/GPU.h | 6 ++++++
mlir/lib/Bindings/Python/DialectGPU.cpp | 21 ++++++++++++++++-----
mlir/lib/CAPI/Dialect/GPU.cpp | 12 ++++++++++++
3 files changed, 34 insertions(+), 5 deletions(-)
diff --git a/mlir/include/mlir-c/Dialect/GPU.h b/mlir/include/mlir-c/Dialect/GPU.h
index 0c2a603ed9b89..d6d8eee639de9 100644
--- a/mlir/include/mlir-c/Dialect/GPU.h
+++ b/mlir/include/mlir-c/Dialect/GPU.h
@@ -53,6 +53,12 @@ mlirGPUObjectAttrHasProperties(MlirAttribute mlirObjectAttr);
MLIR_CAPI_EXPORTED MlirAttribute
mlirGPUObjectAttrGetProperties(MlirAttribute mlirObjectAttr);
+MLIR_CAPI_EXPORTED bool
+mlirGPUObjectAttrHasKernels(MlirAttribute mlirObjectAttr);
+
+MLIR_CAPI_EXPORTED MlirAttribute
+mlirGPUObjectAttrGetKernels(MlirAttribute mlirObjectAttr);
+
#ifdef __cplusplus
}
#endif
diff --git a/mlir/lib/Bindings/Python/DialectGPU.cpp b/mlir/lib/Bindings/Python/DialectGPU.cpp
index a9e339b50dabc..d4df5d5b58130 100644
--- a/mlir/lib/Bindings/Python/DialectGPU.cpp
+++ b/mlir/lib/Bindings/Python/DialectGPU.cpp
@@ -48,17 +48,21 @@ PYBIND11_MODULE(_mlirDialectsGPU, m) {
.def_classmethod(
"get",
[](py::object cls, MlirAttribute target, uint32_t format,
- py::bytes object, std::optional<MlirAttribute> mlirObjectProps) {
+ py::bytes object, std::optional<MlirAttribute> mlirObjectProps,
+ std::optional<MlirAttribute> mlirKernelsAttr) {
py::buffer_info info(py::buffer(object).request());
MlirStringRef objectStrRef =
mlirStringRefCreate(static_cast<char *>(info.ptr), info.size);
return cls(mlirGPUObjectAttrGet(
mlirAttributeGetContext(target), target, format, objectStrRef,
mlirObjectProps.has_value() ? *mlirObjectProps
+ : MlirAttribute{nullptr},
+ mlirKernelsAttr.has_value() ? *mlirKernelsAttr
: MlirAttribute{nullptr}));
},
"cls"_a, "target"_a, "format"_a, "object"_a,
- "properties"_a = py::none(), "Gets a gpu.object from parameters.")
+ "properties"_a = py::none(), "kernels"_a = py::none(),
+ "Gets a gpu.object from parameters.")
.def_property_readonly(
"target",
[](MlirAttribute self) { return mlirGPUObjectAttrGetTarget(self); })
@@ -71,9 +75,16 @@ PYBIND11_MODULE(_mlirDialectsGPU, m) {
MlirStringRef stringRef = mlirGPUObjectAttrGetObject(self);
return py::bytes(stringRef.data, stringRef.length);
})
- .def_property_readonly("properties", [](MlirAttribute self) {
- if (mlirGPUObjectAttrHasProperties(self))
- return py::cast(mlirGPUObjectAttrGetProperties(self));
+ .def_property_readonly("properties",
+ [](MlirAttribute self) {
+ if (mlirGPUObjectAttrHasProperties(self))
+ return py::cast(
+ mlirGPUObjectAttrGetProperties(self));
+ return py::none().cast<py::object>();
+ })
+ .def_property_readonly("kernels", [](MlirAttribute self) {
+ if (mlirGPUObjectAttrHasKernels(self))
+ return py::cast(mlirGPUObjectAttrGetKernels(self));
return py::none().cast<py::object>();
});
}
diff --git a/mlir/lib/CAPI/Dialect/GPU.cpp b/mlir/lib/CAPI/Dialect/GPU.cpp
index ffe60658cb2ce..61b3c23f21bed 100644
--- a/mlir/lib/CAPI/Dialect/GPU.cpp
+++ b/mlir/lib/CAPI/Dialect/GPU.cpp
@@ -82,3 +82,15 @@ MlirAttribute mlirGPUObjectAttrGetProperties(MlirAttribute mlirObjectAttr) {
llvm::cast<gpu::ObjectAttr>(unwrap(mlirObjectAttr));
return wrap(objectAttr.getProperties());
}
+
+bool mlirGPUObjectAttrHasKernels(MlirAttribute mlirObjectAttr) {
+ gpu::ObjectAttr objectAttr =
+ llvm::cast<gpu::ObjectAttr>(unwrap(mlirObjectAttr));
+ return objectAttr.getKernels() != nullptr;
+}
+
+MlirAttribute mlirGPUObjectAttrGetKernels(MlirAttribute mlirObjectAttr) {
+ gpu::ObjectAttr objectAttr =
+ llvm::cast<gpu::ObjectAttr>(unwrap(mlirObjectAttr));
+ return wrap(objectAttr.getKernels());
+}
>From f8ef1b8a78c7e7f403016381ff3b653ab3abedb5 Mon Sep 17 00:00:00 2001
From: Fabian Mora <fmora.dev at gmail.com>
Date: Thu, 13 Jun 2024 15:03:06 +0000
Subject: [PATCH 3/5] addressed reviewer comments
---
.../mlir/Dialect/GPU/IR/CompilationAttrs.td | 96 ++++++++++++-------
mlir/lib/Dialect/GPU/IR/GPUDialect.cpp | 54 ++++++++---
mlir/test/Dialect/GPU/ops.mlir | 6 +-
.../Target/LLVM/SerializeROCDLTarget.cpp | 4 +-
4 files changed, 108 insertions(+), 52 deletions(-)
diff --git a/mlir/include/mlir/Dialect/GPU/IR/CompilationAttrs.td b/mlir/include/mlir/Dialect/GPU/IR/CompilationAttrs.td
index f4037b55c85b4..0088b729ab8a7 100644
--- a/mlir/include/mlir/Dialect/GPU/IR/CompilationAttrs.td
+++ b/mlir/include/mlir/Dialect/GPU/IR/CompilationAttrs.td
@@ -22,72 +22,83 @@ include "mlir/Dialect/GPU/IR/CompilationAttrInterfaces.td"
def GPU_KernelAttr : GPU_Attr<"Kernel", "kernel"> {
let description = [{
- GPU attribute for storing metadata related to a compiled kernel. It
- contains the attribute dictionary of the LLVM function used to generate the
- kernel, as well as an optional dictionary for additional metadata, like
- occupancy information.
+ GPU attribute for storing metadata related to a compiled kernel. The
+ attribute contains the name and function type of the kernel.
+
+ The attribute also contains optional parameters for storing the arguments
+ attributes as well as a dictionary for additional metadata, like occupancy
+ information or other function attributes.
+
+ Note: The `arg_attrs` parameter is expected to follow all the constraints
+ imposed by the `mlir::FunctionOpInterface` interface.
Examples:
```mlir
- #gpu.kernel<{sym_name = "test_fusion__part_0", ...},
- metadata = {reg_count = 255, ...}>
+ #gpu.kernel<@kernel1, (i32) -> (), arg_attrs = [...], metadata = {reg_count = 255, ...}>
+ #gpu.kernel<@kernel2, (i32, f64) -> ()>
```
}];
let parameters = (ins
- "DictionaryAttr":$func_attrs,
+ "StringAttr":$name,
+ "Type":$function_type,
+ OptionalParameter<"ArrayAttr", "arguments attributes">:$arg_attrs,
OptionalParameter<"DictionaryAttr", "metadata dictionary">:$metadata
);
let assemblyFormat = [{
- `<` $func_attrs (`,` `metadata` `=` $metadata^ )? `>`
+ `<` $name `,` $function_type (`,` struct($arg_attrs, $metadata)^)? `>`
}];
let builders = [
- AttrBuilderWithInferredContext<(ins "DictionaryAttr":$funcAttrs,
- CArg<"DictionaryAttr",
- "nullptr">:$metadata), [{
- assert(funcAttrs && "invalid function attributes dictionary");
- return $_get(funcAttrs.getContext(), funcAttrs, metadata);
+ AttrBuilderWithInferredContext<(ins "StringAttr":$name,
+ "Type":$functionType,
+ CArg<"ArrayAttr", "nullptr">:$argAttrs,
+ CArg<"DictionaryAttr",
+ "nullptr">:$metadata), [{
+ assert(name && "invalid name");
+ return $_get(name.getContext(), name, functionType, argAttrs, metadata);
}]>,
- AttrBuilderWithInferredContext<(ins "Operation*":$kernel,
+ AttrBuilderWithInferredContext<(ins "FunctionOpInterface":$kernel,
CArg<"DictionaryAttr",
"nullptr">:$metadata)>
];
+ let genVerifyDecl = 1;
let extraClassDeclaration = [{
- /// Returns the function attribute corresponding to key or nullptr if missing.
+ /// Returns the metadata attribute corresponding to `key` or `nullptr`
+ /// if missing.
Attribute getAttr(StringRef key) const {
- return getFuncAttrs().get(key);
+ auto attrs = getMetadata();
+ return attrs ? attrs.get(key) : nullptr;
}
template <typename ConcreteAttr>
ConcreteAttr getAttr(StringRef key) const {
return llvm::dyn_cast_or_null<ConcreteAttr>(getAttr(key));
}
- Attribute getAttr(StringAttr key) const;
+ Attribute getAttr(StringAttr key) const {
+ auto attrs = getMetadata();
+ return attrs ? attrs.get(key) : nullptr;
+ }
template <typename ConcreteAttr>
ConcreteAttr getAttr(StringAttr key) const {
return llvm::dyn_cast_or_null<ConcreteAttr>(getAttr(key));
}
- /// Returns the name of the kernel.
- StringAttr getName() const {
- return getAttr<StringAttr>("sym_name");
+ /// Returns the attribute dictionary at position `index`.
+ DictionaryAttr getArgAttrDict(unsigned index) {
+ auto argArray = getArgAttrs();
+ return argArray ? llvm::cast<DictionaryAttr>(argArray[index]) : nullptr;
}
- /// Returns the metadta attribute corresponding to key or nullptr if missing.
- Attribute getMDAttr(StringRef key) const {
- if (DictionaryAttr attrs = getMetadata())
- return attrs.get(key);
- return nullptr;
+ /// Return the specified attribute, if present, for the argument at 'index',
+ /// null otherwise.
+ Attribute getArgAttr(unsigned index, StringAttr name) {
+ auto argDict = getArgAttrDict(index);
+ return argDict ? argDict.get(name) : nullptr;
}
- template <typename ConcreteAttr>
- ConcreteAttr getMDAttr(StringRef key) const {
- return llvm::dyn_cast_or_null<ConcreteAttr>(getMDAttr(key));
- }
- Attribute getMDAttr(StringAttr key) const;
- template <typename ConcreteAttr>
- ConcreteAttr getMDAttr(StringAttr key) const {
- return llvm::dyn_cast_or_null<ConcreteAttr>(getMDAttr(key));
+ Attribute getArgAttr(unsigned index, StringRef name) {
+ auto argDict = getArgAttrDict(index);
+ return argDict ? argDict.get(name) : nullptr;
}
- /// Helper function for appending metadata to a kernel attribute.
+ /// Returns a new KernelAttr that contains `attrs` in the metadata dictionary.
KernelAttr appendMetadata(ArrayRef<NamedAttribute> attrs) const;
}];
}
@@ -143,6 +154,14 @@ def GPU_KernelTableAttr : GPU_Attr<"KernelTable", "kernel_table"> {
size_t size() const {
return getKernelTable().size();
}
+
+ /// Returns the kernel with name `key` or `nullptr` if not present.
+ KernelAttr lookup(StringRef key) const {
+ return getKernelTable().getAs<KernelAttr>(key);
+ }
+ KernelAttr lookup(StringAttr key) const {
+ return getKernelTable().getAs<KernelAttr>(key);
+ }
}];
}
@@ -166,8 +185,9 @@ def GPU_CompilationTargetEnum : GPU_I32Enum<
def GPU_ObjectAttr : GPU_Attr<"Object", "object"> {
let description = [{
A GPU object attribute glues together a GPU target, the object kind, a
- binary string with the object, and the object properties, encapsulating how
- the object was generated and its properties with the object itself.
+ binary string with the object, the object properties, and kernel metadata,
+ encapsulating how the object was generated and its properties with the
+ object itself.
There are four object formats:
1. `Offload`: represents generic objects not described by the other three
@@ -185,6 +205,10 @@ def GPU_ObjectAttr : GPU_Attr<"Object", "object"> {
Object properties are specified through the `properties` dictionary
attribute and can be used to define additional information.
+
+ Kernel metadata is specified through the `kernels` parameter, and can be
+ used to specify additional information on a kernel by kernel basis.
+
The target attribute must implement or promise the `TargetAttrInterface`
interface.
diff --git a/mlir/lib/Dialect/GPU/IR/GPUDialect.cpp b/mlir/lib/Dialect/GPU/IR/GPUDialect.cpp
index 7873a0f89ef94..5396a9c7ac9f5 100644
--- a/mlir/lib/Dialect/GPU/IR/GPUDialect.cpp
+++ b/mlir/lib/Dialect/GPU/IR/GPUDialect.cpp
@@ -2238,17 +2238,45 @@ LogicalResult gpu::DynamicSharedMemoryOp::verify() {
// GPU KernelAttr
//===----------------------------------------------------------------------===//
-KernelAttr KernelAttr::get(Operation *kernelOp, DictionaryAttr metadata) {
- assert(kernelOp && "invalid kernel");
- return get(kernelOp->getAttrDictionary(), metadata);
+KernelAttr KernelAttr::get(FunctionOpInterface kernel,
+ DictionaryAttr metadata) {
+ assert(kernel && "invalid kernel");
+ return get(kernel.getNameAttr(), kernel.getFunctionType(),
+ kernel.getAllArgAttrs(), metadata);
+}
+
+KernelAttr KernelAttr::getChecked(function_ref<InFlightDiagnostic()> emitError,
+ FunctionOpInterface kernel,
+ DictionaryAttr metadata) {
+ assert(kernel && "invalid kernel");
+ return getChecked(emitError, kernel.getNameAttr(), kernel.getFunctionType(),
+ kernel.getAllArgAttrs(), metadata);
}
KernelAttr KernelAttr::appendMetadata(ArrayRef<NamedAttribute> attrs) const {
if (attrs.empty())
return *this;
- NamedAttrList attrList(attrs);
- attrList.append(getMetadata());
- return KernelAttr::get(getFuncAttrs(), attrList.getDictionary(getContext()));
+ NamedAttrList attrList;
+ if (auto dict = getMetadata())
+ attrList.append(dict);
+ attrList.append(attrs);
+ return KernelAttr::get(getName(), getFunctionType(), getArgAttrs(),
+ attrList.getDictionary(getContext()));
+}
+
+LogicalResult KernelAttr::verify(function_ref<InFlightDiagnostic()> emitError,
+ StringAttr name, Type functionType,
+ ArrayAttr argAttrs, DictionaryAttr metadata) {
+ if (name.empty())
+ return emitError() << "the kernel name can't be empty";
+ if (argAttrs) {
+ if (llvm::any_of(argAttrs, [](Attribute attr) {
+ return !llvm::isa<DictionaryAttr>(attr);
+ }))
+ return emitError()
+ << "all attributes in the array must be a dictionary attribute";
+ }
+ return success();
}
//===----------------------------------------------------------------------===//
@@ -2260,11 +2288,15 @@ KernelTableAttr::verify(function_ref<InFlightDiagnostic()> emitError,
DictionaryAttr dict) {
if (!dict)
return emitError() << "table cannot be null";
- if (llvm::any_of(dict, [](NamedAttribute attr) {
- return !llvm::isa<KernelAttr>(attr.getValue());
- }))
- return emitError()
- << "all the dictionary values must be `#gpu.kernel` attributes";
+ for (NamedAttribute attr : dict) {
+ auto kernel = llvm::dyn_cast<KernelAttr>(attr.getValue());
+ if (!kernel)
+ return emitError()
+ << "all the dictionary values must be `#gpu.kernel` attributes";
+ if (kernel.getName() != attr.getName())
+ return emitError() << "expected kernel to be named `" << attr.getName()
+ << "` but got `" << kernel.getName() << "`";
+ }
return success();
}
diff --git a/mlir/test/Dialect/GPU/ops.mlir b/mlir/test/Dialect/GPU/ops.mlir
index 692ef2a5e3bef..d902cf3f41e08 100644
--- a/mlir/test/Dialect/GPU/ops.mlir
+++ b/mlir/test/Dialect/GPU/ops.mlir
@@ -444,6 +444,6 @@ gpu.module @module_with_offload_handler <#gpu.select_object<0>> [#nvvm.target] {
gpu.binary @binary [#gpu.object<#rocdl.target<chip = "gfx900">, kernels = #gpu.kernel_table<{
- kernel0 = #gpu.kernel<{sym_name = "kernel0"}, metadata = {sgpr_count = 255}>,
- kernel1 = #gpu.kernel<{sym_name = "kernel1"}>
- }> , bin = "BLOB">]
+ kernel0 = #gpu.kernel<"kernel0", (i32, f32) -> (), metadata = {sgpr_count = 255}>,
+ kernel1 = #gpu.kernel<"kernel1", (i32) -> (), arg_attrs = [{llvm.read_only}]>
+ }>, bin = "BLOB">]
diff --git a/mlir/unittests/Target/LLVM/SerializeROCDLTarget.cpp b/mlir/unittests/Target/LLVM/SerializeROCDLTarget.cpp
index 3d5c84efb6f4f..a75cb05468250 100644
--- a/mlir/unittests/Target/LLVM/SerializeROCDLTarget.cpp
+++ b/mlir/unittests/Target/LLVM/SerializeROCDLTarget.cpp
@@ -197,9 +197,9 @@ TEST_F(MLIRTargetLLVMROCDL, SKIP_WITHOUT_AMDGPU(GetELFMetadata)) {
// Check that the ELF metadata is present.
ASSERT_TRUE(kernel.getMetadata() != nullptr);
// Verify that `sgpr_count` is present and it is an integer attribute.
- ASSERT_TRUE(kernel.getMDAttr<IntegerAttr>("sgpr_count") != nullptr);
+ ASSERT_TRUE(kernel.getAttr<IntegerAttr>("sgpr_count") != nullptr);
// Verify that `vgpr_count` is present and it is an integer attribute.
- ASSERT_TRUE(kernel.getMDAttr<IntegerAttr>("vgpr_count") != nullptr);
+ ASSERT_TRUE(kernel.getAttr<IntegerAttr>("vgpr_count") != nullptr);
}
}
}
>From 4ac6a0d35d2e9d5bbc1bf905c3d6924c24e003f7 Mon Sep 17 00:00:00 2001
From: Fabian Mora <fmora.dev at gmail.com>
Date: Mon, 17 Jun 2024 16:41:29 +0000
Subject: [PATCH 4/5] expose function retrieving the ELF metadata dict
---
mlir/include/mlir/Target/LLVM/ROCDL/Utils.h | 12 ++++++--
mlir/lib/Target/LLVM/ROCDL/Utils.cpp | 28 +++++++++++--------
.../Target/LLVM/SerializeROCDLTarget.cpp | 2 +-
3 files changed, 27 insertions(+), 15 deletions(-)
diff --git a/mlir/include/mlir/Target/LLVM/ROCDL/Utils.h b/mlir/include/mlir/Target/LLVM/ROCDL/Utils.h
index 904d60a2a75db..3d2174c144815 100644
--- a/mlir/include/mlir/Target/LLVM/ROCDL/Utils.h
+++ b/mlir/include/mlir/Target/LLVM/ROCDL/Utils.h
@@ -109,11 +109,19 @@ class SerializeGPUModuleBase : public LLVM::ModuleToObject {
AMDGCNLibraries deviceLibs = AMDGCNLibraries::None;
};
+/// Returns a map containing the `amdhsa.kernels` ELF metadata for each of the
+/// kernels in the binary, or `std::nullopt` if the metadata couldn't be
+/// retrieved. The map associates the name of the kernel with the list of named
+/// attributes found in `amdhsa.kernels`. For more information on the ELF
+/// metadata see: https://llvm.org/docs/AMDGPUUsage.html#amdhsa
+std::optional<DenseMap<StringAttr, NamedAttrList>>
+getAMDHSAKernelsELFMetadata(Builder &builder, ArrayRef<char> elfData);
+
/// Returns a `#gpu.kernel_table` containing kernel metadata for each of the
/// kernels in `gpuModule`. If `elfData` is valid, then the `amdhsa.kernels` ELF
/// metadata will be added to the `#gpu.kernel_table`.
-gpu::KernelTableAttr getAMDHSAKernelsMetadata(Operation *gpuModule,
- ArrayRef<char> elfData = {});
+gpu::KernelTableAttr getKernelMetadata(Operation *gpuModule,
+ ArrayRef<char> elfData = {});
} // namespace ROCDL
} // namespace mlir
diff --git a/mlir/lib/Target/LLVM/ROCDL/Utils.cpp b/mlir/lib/Target/LLVM/ROCDL/Utils.cpp
index 5029293bae2a6..c07ea8eebaf2e 100644
--- a/mlir/lib/Target/LLVM/ROCDL/Utils.cpp
+++ b/mlir/lib/Target/LLVM/ROCDL/Utils.cpp
@@ -166,20 +166,21 @@ static Attribute convertNode(Builder &builder, llvm::msgpack::DocNode &node) {
}
/// The following function should succeed for Code object V3 and above.
-static llvm::StringMap<DictionaryAttr> getELFMetadata(Builder &builder,
- ArrayRef<char> elfData) {
+std::optional<DenseMap<StringAttr, NamedAttrList>>
+mlir::ROCDL::getAMDHSAKernelsELFMetadata(Builder &builder,
+ ArrayRef<char> elfData) {
std::optional<llvm::msgpack::Document> metadata = getAMDHSANote(elfData);
if (!metadata)
- return {};
- llvm::StringMap<DictionaryAttr> kernelMD;
+ return std::nullopt;
+ DenseMap<StringAttr, NamedAttrList> kernelMD;
llvm::msgpack::DocNode &root = (metadata)->getRoot();
// Fail if `root` is not a map -it should be for AMD Obj Ver 3.
if (!root.isMap())
- return kernelMD;
+ return std::nullopt;
auto &kernels = root.getMap()["amdhsa.kernels"];
// Fail if `amdhsa.kernels` is not an array.
if (!kernels.isArray())
- return kernelMD;
+ return std::nullopt;
// Convert each of the kernels.
for (auto &kernel : kernels.getArray()) {
if (!kernel.isMap())
@@ -202,24 +203,27 @@ static llvm::StringMap<DictionaryAttr> getELFMetadata(Builder &builder,
attrList.append(key, attr);
}
if (!attrList.empty())
- kernelMD[name.getString()] = builder.getDictionaryAttr(attrList);
+ kernelMD[builder.getStringAttr(name.getString())] = std::move(attrList);
}
return kernelMD;
}
-gpu::KernelTableAttr
-mlir::ROCDL::getAMDHSAKernelsMetadata(Operation *gpuModule,
- ArrayRef<char> elfData) {
+gpu::KernelTableAttr mlir::ROCDL::getKernelMetadata(Operation *gpuModule,
+ ArrayRef<char> elfData) {
auto module = cast<gpu::GPUModuleOp>(gpuModule);
Builder builder(module.getContext());
NamedAttrList moduleAttrs;
- llvm::StringMap<DictionaryAttr> mdMap = getELFMetadata(builder, elfData);
+ std::optional<DenseMap<StringAttr, NamedAttrList>> mdMapOrNull =
+ getAMDHSAKernelsELFMetadata(builder, elfData);
for (auto funcOp : module.getBody()->getOps<LLVM::LLVMFuncOp>()) {
if (!funcOp->getDiscardableAttr("rocdl.kernel"))
continue;
moduleAttrs.append(
funcOp.getName(),
- gpu::KernelAttr::get(funcOp, mdMap.lookup(funcOp.getName())));
+ gpu::KernelAttr::get(
+ funcOp, mdMapOrNull ? builder.getDictionaryAttr(
+ mdMapOrNull->lookup(funcOp.getNameAttr()))
+ : nullptr));
}
return gpu::KernelTableAttr::get(
moduleAttrs.getDictionary(module.getContext()));
diff --git a/mlir/unittests/Target/LLVM/SerializeROCDLTarget.cpp b/mlir/unittests/Target/LLVM/SerializeROCDLTarget.cpp
index a75cb05468250..c5ad5a045d2f7 100644
--- a/mlir/unittests/Target/LLVM/SerializeROCDLTarget.cpp
+++ b/mlir/unittests/Target/LLVM/SerializeROCDLTarget.cpp
@@ -187,7 +187,7 @@ TEST_F(MLIRTargetLLVMROCDL, SKIP_WITHOUT_AMDGPU(GetELFMetadata)) {
continue;
// Get the metadata.
gpu::KernelTableAttr metadata =
- ROCDL::getAMDHSAKernelsMetadata(gpuModule, *object);
+ ROCDL::getKernelMetadata(gpuModule, *object);
ASSERT_TRUE(metadata != nullptr);
// There should be only a single kernel.
ASSERT_TRUE(metadata.size() == 1);
>From e629c5fc1e4a1127e00ef70217095eee5def488f Mon Sep 17 00:00:00 2001
From: Fabian Mora <fmora.dev at gmail.com>
Date: Tue, 30 Jul 2024 15:30:31 +0000
Subject: [PATCH 5/5] address reviewer comments
---
mlir/include/mlir-c/Dialect/GPU.h | 8 +-
.../mlir/Dialect/GPU/IR/CompilationAttrs.td | 59 +++++-----
mlir/lib/CAPI/Dialect/GPU.cpp | 19 +++-
mlir/lib/Dialect/GPU/IR/GPUDialect.cpp | 63 ++++++++---
mlir/lib/Target/LLVM/ROCDL/Target.cpp | 11 +-
mlir/lib/Target/LLVM/ROCDL/Utils.cpp | 101 +++++++++---------
mlir/test/Dialect/GPU/invalid.mlir | 12 +++
mlir/test/Dialect/GPU/ops.mlir | 27 ++++-
.../Target/LLVM/SerializeROCDLTarget.cpp | 29 ++++-
9 files changed, 212 insertions(+), 117 deletions(-)
diff --git a/mlir/include/mlir-c/Dialect/GPU.h b/mlir/include/mlir-c/Dialect/GPU.h
index d6d8eee639de9..321c1122c3370 100644
--- a/mlir/include/mlir-c/Dialect/GPU.h
+++ b/mlir/include/mlir-c/Dialect/GPU.h
@@ -35,8 +35,12 @@ MLIR_CAPI_EXPORTED bool mlirAttributeIsAGPUObjectAttr(MlirAttribute attr);
MLIR_CAPI_EXPORTED MlirAttribute
mlirGPUObjectAttrGet(MlirContext mlirCtx, MlirAttribute target, uint32_t format,
- MlirStringRef objectStrRef, MlirAttribute mlirObjectProps,
- MlirAttribute mlirKernelsAttr);
+ MlirStringRef objectStrRef, MlirAttribute mlirObjectProps);
+
+MLIR_CAPI_EXPORTED MlirAttribute mlirGPUObjectAttrGetWithKernels(
+ MlirContext mlirCtx, MlirAttribute target, uint32_t format,
+ MlirStringRef objectStrRef, MlirAttribute mlirObjectProps,
+ MlirAttribute mlirKernelsAttr);
MLIR_CAPI_EXPORTED MlirAttribute
mlirGPUObjectAttrGetTarget(MlirAttribute mlirObjectAttr);
diff --git a/mlir/include/mlir/Dialect/GPU/IR/CompilationAttrs.td b/mlir/include/mlir/Dialect/GPU/IR/CompilationAttrs.td
index 0088b729ab8a7..78740a1cb5e1d 100644
--- a/mlir/include/mlir/Dialect/GPU/IR/CompilationAttrs.td
+++ b/mlir/include/mlir/Dialect/GPU/IR/CompilationAttrs.td
@@ -62,10 +62,15 @@ def GPU_KernelAttr : GPU_Attr<"Kernel", "kernel"> {
];
let genVerifyDecl = 1;
let extraClassDeclaration = [{
+ /// Compare two kernels based on the name.
+ bool operator<(const KernelAttr& other) const {
+ return getName().getValue() < other.getName().getValue();
+ }
+
/// Returns the metadata attribute corresponding to `key` or `nullptr`
/// if missing.
Attribute getAttr(StringRef key) const {
- auto attrs = getMetadata();
+ DictionaryAttr attrs = getMetadata();
return attrs ? attrs.get(key) : nullptr;
}
template <typename ConcreteAttr>
@@ -73,7 +78,7 @@ def GPU_KernelAttr : GPU_Attr<"Kernel", "kernel"> {
return llvm::dyn_cast_or_null<ConcreteAttr>(getAttr(key));
}
Attribute getAttr(StringAttr key) const {
- auto attrs = getMetadata();
+ DictionaryAttr attrs = getMetadata();
return attrs ? attrs.get(key) : nullptr;
}
template <typename ConcreteAttr>
@@ -83,18 +88,18 @@ def GPU_KernelAttr : GPU_Attr<"Kernel", "kernel"> {
/// Returns the attribute dictionary at position `index`.
DictionaryAttr getArgAttrDict(unsigned index) {
- auto argArray = getArgAttrs();
+ ArrayAttr argArray = getArgAttrs();
return argArray ? llvm::cast<DictionaryAttr>(argArray[index]) : nullptr;
}
/// Return the specified attribute, if present, for the argument at 'index',
/// null otherwise.
Attribute getArgAttr(unsigned index, StringAttr name) {
- auto argDict = getArgAttrDict(index);
+ DictionaryAttr argDict = getArgAttrDict(index);
return argDict ? argDict.get(name) : nullptr;
}
Attribute getArgAttr(unsigned index, StringRef name) {
- auto argDict = getArgAttrDict(index);
+ DictionaryAttr argDict = getArgAttrDict(index);
return argDict ? argDict.get(name) : nullptr;
}
@@ -114,54 +119,38 @@ def GPU_KernelTableAttr : GPU_Attr<"KernelTable", "kernel_table"> {
Examples:
```mlir
- #gpu.kernel_table<{kernel0 = #gpu.kernel<...>}>
+ #gpu.kernel_table<[#gpu.kernel<kernel0, ...>]>
```
}];
let parameters = (ins
- "DictionaryAttr":$kernel_table
+ OptionalArrayRefParameter<"KernelAttr", "array of kernels">:$kernel_table
);
let assemblyFormat = [{
- `<` $kernel_table `>`
+ `<` (`[` qualified($kernel_table)^ `]`)? `>`
}];
let builders = [
- AttrBuilderWithInferredContext<(ins "DictionaryAttr":$kernel_table), [{
- assert(kernel_table && "invalid kernel table");
- return $_get(kernel_table.getContext(), kernel_table);
- }]>
+ AttrBuilder<(ins "ArrayRef<KernelAttr>":$kernels,
+ CArg<"bool", "false">:$isSorted)>
];
let skipDefaultBuilders = 1;
let genVerifyDecl = 1;
let extraClassDeclaration = [{
- /// Helper iterator class for traversing the kernel table.
- struct KernelIterator
- : llvm::mapped_iterator_base<KernelIterator,
- llvm::ArrayRef<NamedAttribute>::iterator,
- std::pair<StringAttr, KernelAttr>> {
- using llvm::mapped_iterator_base<
- KernelIterator, llvm::ArrayRef<NamedAttribute>::iterator,
- std::pair<StringAttr, KernelAttr>>::mapped_iterator_base;
- /// Map the iterator to the kernel name and a KernelAttribute.
- std::pair<StringAttr, KernelAttr> mapElement(NamedAttribute attr) const {
- return {attr.getName(), llvm::cast<KernelAttr>(attr.getValue())};
- }
- };
- auto begin() const {
- return KernelIterator(getKernelTable().begin());
+ llvm::ArrayRef<KernelAttr>::iterator begin() const {
+ return getKernelTable().begin();
}
- auto end() const {
- return KernelIterator(getKernelTable().end());
+ llvm::ArrayRef<KernelAttr>::iterator end() const {
+ return getKernelTable().end();
}
size_t size() const {
return getKernelTable().size();
}
+ bool empty() const {
+ return getKernelTable().empty();
+ }
/// Returns the kernel with name `key` or `nullptr` if not present.
- KernelAttr lookup(StringRef key) const {
- return getKernelTable().getAs<KernelAttr>(key);
- }
- KernelAttr lookup(StringAttr key) const {
- return getKernelTable().getAs<KernelAttr>(key);
- }
+ KernelAttr lookup(StringRef key) const;
+ KernelAttr lookup(StringAttr key) const;
}];
}
diff --git a/mlir/lib/CAPI/Dialect/GPU.cpp b/mlir/lib/CAPI/Dialect/GPU.cpp
index 61b3c23f21bed..e4796ed1499ea 100644
--- a/mlir/lib/CAPI/Dialect/GPU.cpp
+++ b/mlir/lib/CAPI/Dialect/GPU.cpp
@@ -37,8 +37,23 @@ bool mlirAttributeIsAGPUObjectAttr(MlirAttribute attr) {
MlirAttribute mlirGPUObjectAttrGet(MlirContext mlirCtx, MlirAttribute target,
uint32_t format, MlirStringRef objectStrRef,
- MlirAttribute mlirObjectProps,
- MlirAttribute mlirKernelsAttr) {
+ MlirAttribute mlirObjectProps) {
+ MLIRContext *ctx = unwrap(mlirCtx);
+ llvm::StringRef object = unwrap(objectStrRef);
+ DictionaryAttr objectProps;
+ if (mlirObjectProps.ptr != nullptr)
+ objectProps = llvm::cast<DictionaryAttr>(unwrap(mlirObjectProps));
+ return wrap(gpu::ObjectAttr::get(
+ ctx, unwrap(target), static_cast<gpu::CompilationTarget>(format),
+ StringAttr::get(ctx, object), objectProps, nullptr));
+}
+
+MlirAttribute mlirGPUObjectAttrGetWithKernels(MlirContext mlirCtx,
+ MlirAttribute target,
+ uint32_t format,
+ MlirStringRef objectStrRef,
+ MlirAttribute mlirObjectProps,
+ MlirAttribute mlirKernelsAttr) {
MLIRContext *ctx = unwrap(mlirCtx);
llvm::StringRef object = unwrap(objectStrRef);
DictionaryAttr objectProps;
diff --git a/mlir/lib/Dialect/GPU/IR/GPUDialect.cpp b/mlir/lib/Dialect/GPU/IR/GPUDialect.cpp
index 5396a9c7ac9f5..c78f82fef39f9 100644
--- a/mlir/lib/Dialect/GPU/IR/GPUDialect.cpp
+++ b/mlir/lib/Dialect/GPU/IR/GPUDialect.cpp
@@ -2257,7 +2257,7 @@ KernelAttr KernelAttr::appendMetadata(ArrayRef<NamedAttribute> attrs) const {
if (attrs.empty())
return *this;
NamedAttrList attrList;
- if (auto dict = getMetadata())
+ if (DictionaryAttr dict = getMetadata())
attrList.append(dict);
attrList.append(attrs);
return KernelAttr::get(getName(), getFunctionType(), getArgAttrs(),
@@ -2283,23 +2283,62 @@ LogicalResult KernelAttr::verify(function_ref<InFlightDiagnostic()> emitError,
// GPU KernelTableAttr
//===----------------------------------------------------------------------===//
+KernelTableAttr KernelTableAttr::get(MLIRContext *context,
+ ArrayRef<KernelAttr> kernels,
+ bool isSorted) {
+ // Note that `is_sorted` is always only invoked once even with assertions ON.
+ assert((!isSorted || llvm::is_sorted(kernels)) &&
+ "expected a sorted kernel array");
+ // Immediately return the attribute if the array is sorted.
+ if (isSorted || llvm::is_sorted(kernels))
+ return Base::get(context, kernels);
+ // Sort the array.
+ SmallVector<KernelAttr> kernelsTmp(kernels);
+ llvm::array_pod_sort(kernelsTmp.begin(), kernelsTmp.end());
+ return Base::get(context, kernelsTmp);
+}
+
+KernelTableAttr
+KernelTableAttr::getChecked(function_ref<InFlightDiagnostic()> emitError,
+ MLIRContext *context, ArrayRef<KernelAttr> kernels,
+ bool isSorted) {
+ // Note that `is_sorted` is always only invoked once even with assertions ON.
+ assert((!isSorted || llvm::is_sorted(kernels)) &&
+ "expected a sorted kernel array");
+ // Immediately return the attribute if the array is sorted.
+ if (isSorted || llvm::is_sorted(kernels))
+ return Base::getChecked(emitError, context, kernels);
+ // Sort the array.
+ SmallVector<KernelAttr> kernelsTmp(kernels);
+ llvm::array_pod_sort(kernelsTmp.begin(), kernelsTmp.end());
+ return Base::getChecked(emitError, context, kernelsTmp);
+}
+
LogicalResult
KernelTableAttr::verify(function_ref<InFlightDiagnostic()> emitError,
- DictionaryAttr dict) {
- if (!dict)
- return emitError() << "table cannot be null";
- for (NamedAttribute attr : dict) {
- auto kernel = llvm::dyn_cast<KernelAttr>(attr.getValue());
- if (!kernel)
- return emitError()
- << "all the dictionary values must be `#gpu.kernel` attributes";
- if (kernel.getName() != attr.getName())
- return emitError() << "expected kernel to be named `" << attr.getName()
- << "` but got `" << kernel.getName() << "`";
+ ArrayRef<KernelAttr> kernels) {
+ if (kernels.size() < 2)
+ return success();
+ // Check that the kernels are uniquely named.
+ if (std::adjacent_find(kernels.begin(), kernels.end(),
+ [](KernelAttr l, KernelAttr r) {
+ return l.getName() == r.getName();
+ }) != kernels.end()) {
+ return emitError() << "expected all kernels to be uniquely named";
}
return success();
}
+KernelAttr KernelTableAttr::lookup(StringRef key) const {
+ auto it = impl::findAttrSorted(begin(), end(), key);
+ return it.second ? *it.first : KernelAttr();
+}
+
+KernelAttr KernelTableAttr::lookup(StringAttr key) const {
+ auto it = impl::findAttrSorted(begin(), end(), key);
+ return it.second ? *it.first : KernelAttr();
+}
+
//===----------------------------------------------------------------------===//
// GPU target options
//===----------------------------------------------------------------------===//
diff --git a/mlir/lib/Target/LLVM/ROCDL/Target.cpp b/mlir/lib/Target/LLVM/ROCDL/Target.cpp
index 42053e3ec18d3..1ca35f09e255f 100644
--- a/mlir/lib/Target/LLVM/ROCDL/Target.cpp
+++ b/mlir/lib/Target/LLVM/ROCDL/Target.cpp
@@ -508,13 +508,10 @@ ROCDLTargetAttrImpl::createObject(Attribute attribute,
// supported.
if (format > gpu::CompilationTarget::Binary)
format = gpu::CompilationTarget::Binary;
-
DictionaryAttr properties{};
Builder builder(attribute.getContext());
- return builder.getAttr<gpu::ObjectAttr>(
- attribute,
- format > gpu::CompilationTarget::Binary ? gpu::CompilationTarget::Binary
- : format,
- builder.getStringAttr(StringRef(object.data(), object.size())),
- properties, nullptr);
+ StringAttr objectStr =
+ builder.getStringAttr(StringRef(object.data(), object.size()));
+ return builder.getAttr<gpu::ObjectAttr>(attribute, format, objectStr,
+ properties, nullptr);
}
diff --git a/mlir/lib/Target/LLVM/ROCDL/Utils.cpp b/mlir/lib/Target/LLVM/ROCDL/Utils.cpp
index c07ea8eebaf2e..4829950a1818c 100644
--- a/mlir/lib/Target/LLVM/ROCDL/Utils.cpp
+++ b/mlir/lib/Target/LLVM/ROCDL/Utils.cpp
@@ -29,17 +29,19 @@ using namespace mlir::ROCDL;
/// `amdhsa.kernels`:
/// https://llvm.org/docs/AMDGPUUsage.html#code-object-v3-metadata
template <typename ELFT>
-static std::optional<llvm::msgpack::Document>
+static std::unique_ptr<llvm::msgpack::Document>
getAMDHSANote(llvm::object::ELFObjectFile<ELFT> &elfObj) {
using namespace llvm;
using namespace llvm::object;
using namespace llvm::ELF;
const ELFFile<ELFT> &elf = elfObj.getELFFile();
- auto secOrErr = elf.sections();
- if (!secOrErr)
- return std::nullopt;
+ Expected<typename ELFT::ShdrRange> secOrErr = elf.sections();
+ if (!secOrErr) {
+ consumeError(secOrErr.takeError());
+ return nullptr;
+ }
ArrayRef<typename ELFT::Shdr> sections = *secOrErr;
- for (auto section : sections) {
+ for (const typename ELFT::Shdr §ion : sections) {
if (section.sh_type != ELF::SHT_NOTE)
continue;
size_t align = std::max(static_cast<unsigned>(section.sh_addralign), 4u);
@@ -54,45 +56,45 @@ getAMDHSANote(llvm::object::ELFObjectFile<ELFT> &elfObj) {
ArrayRef<uint8_t> desc = note.getDesc(align);
StringRef msgPackString =
StringRef(reinterpret_cast<const char *>(desc.data()), desc.size());
- msgpack::Document msgPackDoc;
- if (!msgPackDoc.readFromBlob(msgPackString, /*Multi=*/false))
- return std::nullopt;
- if (msgPackDoc.getRoot().isScalar())
- return std::nullopt;
- return std::optional<llvm::msgpack::Document>(std::move(msgPackDoc));
+ std::unique_ptr<llvm::msgpack::Document> msgPackDoc(
+ new llvm::msgpack::Document());
+ if (!msgPackDoc->readFromBlob(msgPackString, /*Multi=*/false))
+ return nullptr;
+ if (msgPackDoc->getRoot().isScalar())
+ return nullptr;
+ return msgPackDoc;
}
}
- return std::nullopt;
+ return nullptr;
}
-/// Return the `amdhsa.kernels` metadata in the ELF object or std::nullopt on
+/// Return the `amdhsa.kernels` metadata in the ELF object or nullptr on
/// failure. This is a helper function that casts a generic `ObjectFile` to the
/// appropiate `ELFObjectFile`.
-static std::optional<llvm::msgpack::Document>
+static std::unique_ptr<llvm::msgpack::Document>
getAMDHSANote(ArrayRef<char> elfData) {
using namespace llvm;
using namespace llvm::object;
if (elfData.empty())
- return std::nullopt;
+ return nullptr;
MemoryBufferRef buffer(StringRef(elfData.data(), elfData.size()), "buffer");
Expected<std::unique_ptr<ObjectFile>> objOrErr =
ObjectFile::createELFObjectFile(buffer);
if (!objOrErr || !objOrErr.get()) {
// Drop the error.
llvm::consumeError(objOrErr.takeError());
- return std::nullopt;
+ return nullptr;
}
ObjectFile &elf = *(objOrErr.get());
- std::optional<llvm::msgpack::Document> metadata;
if (auto *obj = dyn_cast<ELF32LEObjectFile>(&elf))
- metadata = getAMDHSANote(*obj);
+ return getAMDHSANote(*obj);
else if (auto *obj = dyn_cast<ELF32BEObjectFile>(&elf))
- metadata = getAMDHSANote(*obj);
+ return getAMDHSANote(*obj);
else if (auto *obj = dyn_cast<ELF64LEObjectFile>(&elf))
- metadata = getAMDHSANote(*obj);
+ return getAMDHSANote(*obj);
else if (auto *obj = dyn_cast<ELF64BEObjectFile>(&elf))
- metadata = getAMDHSANote(*obj);
- return metadata;
+ return getAMDHSANote(*obj);
+ return nullptr;
}
/// Utility functions for converting `llvm::msgpack::DocNode` nodes.
@@ -100,11 +102,11 @@ static Attribute convertNode(Builder &builder, llvm::msgpack::DocNode &node);
static Attribute convertNode(Builder &builder,
llvm::msgpack::MapDocNode &node) {
NamedAttrList attrs;
- for (auto kv : node) {
- if (!kv.first.isString())
+ for (auto &[keyNode, valueNode] : node) {
+ if (!keyNode.isString())
continue;
- if (Attribute attr = convertNode(builder, kv.second)) {
- auto key = kv.first.getString();
+ StringRef key = keyNode.getString();
+ if (Attribute attr = convertNode(builder, valueNode)) {
key.consume_front(".");
key.consume_back(".");
attrs.append(key, attr);
@@ -125,7 +127,7 @@ static Attribute convertNode(Builder &builder,
})) {
SmallVector<int64_t> values;
for (llvm::msgpack::DocNode &n : node) {
- auto kind = n.getKind();
+ llvm::msgpack::Type kind = n.getKind();
if (kind == NodeKind::Int)
values.push_back(n.getInt());
else if (kind == NodeKind::UInt)
@@ -169,41 +171,43 @@ static Attribute convertNode(Builder &builder, llvm::msgpack::DocNode &node) {
std::optional<DenseMap<StringAttr, NamedAttrList>>
mlir::ROCDL::getAMDHSAKernelsELFMetadata(Builder &builder,
ArrayRef<char> elfData) {
- std::optional<llvm::msgpack::Document> metadata = getAMDHSANote(elfData);
+ using namespace llvm::msgpack;
+ std::unique_ptr<llvm::msgpack::Document> metadata = getAMDHSANote(elfData);
if (!metadata)
return std::nullopt;
DenseMap<StringAttr, NamedAttrList> kernelMD;
- llvm::msgpack::DocNode &root = (metadata)->getRoot();
- // Fail if `root` is not a map -it should be for AMD Obj Ver 3.
- if (!root.isMap())
+ DocNode &rootNode = (metadata)->getRoot();
+ // Fail if `rootNode` is not a map -it should be for AMD Obj Ver 3.
+ if (!rootNode.isMap())
return std::nullopt;
- auto &kernels = root.getMap()["amdhsa.kernels"];
+ DocNode &kernels = rootNode.getMap()["amdhsa.kernels"];
// Fail if `amdhsa.kernels` is not an array.
if (!kernels.isArray())
return std::nullopt;
// Convert each of the kernels.
- for (auto &kernel : kernels.getArray()) {
+ for (DocNode &kernel : kernels.getArray()) {
if (!kernel.isMap())
continue;
- auto &kernelMap = kernel.getMap();
- auto &name = kernelMap[".name"];
- if (!name.isString())
+ MapDocNode &kernelMap = kernel.getMap();
+ DocNode &nameNode = kernelMap[".name"];
+ if (!nameNode.isString())
continue;
+ StringRef name = nameNode.getString();
NamedAttrList attrList;
// Convert the kernel properties.
- for (auto kv : kernelMap) {
- if (!kv.first.isString())
+ for (auto &[keyNode, valueNode] : kernelMap) {
+ if (!keyNode.isString())
continue;
- StringRef key = kv.first.getString();
+ StringRef key = keyNode.getString();
key.consume_front(".");
key.consume_back(".");
if (key == "name")
continue;
- if (Attribute attr = convertNode(builder, kv.second))
+ if (Attribute attr = convertNode(builder, valueNode))
attrList.append(key, attr);
}
if (!attrList.empty())
- kernelMD[builder.getStringAttr(name.getString())] = std::move(attrList);
+ kernelMD[builder.getStringAttr(name)] = std::move(attrList);
}
return kernelMD;
}
@@ -212,19 +216,16 @@ gpu::KernelTableAttr mlir::ROCDL::getKernelMetadata(Operation *gpuModule,
ArrayRef<char> elfData) {
auto module = cast<gpu::GPUModuleOp>(gpuModule);
Builder builder(module.getContext());
- NamedAttrList moduleAttrs;
+ SmallVector<gpu::KernelAttr> kernels;
std::optional<DenseMap<StringAttr, NamedAttrList>> mdMapOrNull =
getAMDHSAKernelsELFMetadata(builder, elfData);
for (auto funcOp : module.getBody()->getOps<LLVM::LLVMFuncOp>()) {
if (!funcOp->getDiscardableAttr("rocdl.kernel"))
continue;
- moduleAttrs.append(
- funcOp.getName(),
- gpu::KernelAttr::get(
- funcOp, mdMapOrNull ? builder.getDictionaryAttr(
- mdMapOrNull->lookup(funcOp.getNameAttr()))
- : nullptr));
+ kernels.push_back(gpu::KernelAttr::get(
+ funcOp, mdMapOrNull ? builder.getDictionaryAttr(
+ mdMapOrNull->lookup(funcOp.getNameAttr()))
+ : nullptr));
}
- return gpu::KernelTableAttr::get(
- moduleAttrs.getDictionary(module.getContext()));
+ return gpu::KernelTableAttr::get(gpuModule->getContext(), kernels);
}
diff --git a/mlir/test/Dialect/GPU/invalid.mlir b/mlir/test/Dialect/GPU/invalid.mlir
index e9d8f329be8ed..1c65a9ccf7336 100644
--- a/mlir/test/Dialect/GPU/invalid.mlir
+++ b/mlir/test/Dialect/GPU/invalid.mlir
@@ -832,3 +832,15 @@ module attributes {gpu.container_module} {
gpu.module @kernel <> {
}
}
+
+// -----
+
+gpu.binary @binary [#gpu.object<#rocdl.target<chip = "gfx900">,
+ // expected-error at +1{{expected all kernels to be uniquely named}}
+ kernels = #gpu.kernel_table<[
+ #gpu.kernel<"kernel", (i32) -> ()>,
+ #gpu.kernel<"kernel", (i32, f32) -> (), metadata = {sgpr_count = 255}>
+ // expected-error at below{{failed to parse GPU_ObjectAttr parameter 'kernels' which is to be a `KernelTableAttr`}}
+ ]>,
+ bin = "BLOB">
+ ]
diff --git a/mlir/test/Dialect/GPU/ops.mlir b/mlir/test/Dialect/GPU/ops.mlir
index d902cf3f41e08..f80dca7552623 100644
--- a/mlir/test/Dialect/GPU/ops.mlir
+++ b/mlir/test/Dialect/GPU/ops.mlir
@@ -442,8 +442,25 @@ gpu.module @module_with_two_target [#nvvm.target, #rocdl.target<chip = "gfx90a">
gpu.module @module_with_offload_handler <#gpu.select_object<0>> [#nvvm.target] {
}
-
-gpu.binary @binary [#gpu.object<#rocdl.target<chip = "gfx900">, kernels = #gpu.kernel_table<{
- kernel0 = #gpu.kernel<"kernel0", (i32, f32) -> (), metadata = {sgpr_count = 255}>,
- kernel1 = #gpu.kernel<"kernel1", (i32) -> (), arg_attrs = [{llvm.read_only}]>
- }>, bin = "BLOB">]
+// Test kernel attributes
+gpu.binary @kernel_attrs_1 [
+ #gpu.object<#rocdl.target<chip = "gfx900">,
+ kernels = #gpu.kernel_table<[
+ #gpu.kernel<"kernel0", (i32, f32) -> (), metadata = {sgpr_count = 255}>,
+ #gpu.kernel<"kernel1", (i32) -> (), arg_attrs = [{llvm.read_only}]>
+ ]>,
+ bin = "BLOB">
+ ]
+
+// Verify the kernels are sorted
+// CHECK-LABEL: gpu.binary @kernel_attrs_2
+gpu.binary @kernel_attrs_2 [
+ // CHECK: [#gpu.kernel<"a_kernel", () -> ()>, #gpu.kernel<"m_kernel", () -> ()>, #gpu.kernel<"z_kernel", () -> ()>]
+ #gpu.object<#rocdl.target<chip = "gfx900">,
+ kernels = #gpu.kernel_table<[
+ #gpu.kernel<"z_kernel", () -> ()>,
+ #gpu.kernel<"m_kernel", () -> ()>,
+ #gpu.kernel<"a_kernel", () -> ()>
+ ]>,
+ bin = "BLOB">
+ ]
diff --git a/mlir/unittests/Target/LLVM/SerializeROCDLTarget.cpp b/mlir/unittests/Target/LLVM/SerializeROCDLTarget.cpp
index c5ad5a045d2f7..100c483c515de 100644
--- a/mlir/unittests/Target/LLVM/SerializeROCDLTarget.cpp
+++ b/mlir/unittests/Target/LLVM/SerializeROCDLTarget.cpp
@@ -166,6 +166,23 @@ TEST_F(MLIRTargetLLVMROCDL, SKIP_WITHOUT_AMDGPU(GetELFMetadata)) {
MLIRContext context(registry);
+ // MLIR module used for the tests.
+ const std::string moduleStr = R"mlir(
+ gpu.module @rocdl_test {
+ llvm.func @rocdl_kernel_1(%arg0: f32) attributes {gpu.kernel, rocdl.kernel} {
+ llvm.return
+ }
+ llvm.func @rocdl_kernel_0(%arg0: f32) attributes {gpu.kernel, rocdl.kernel} {
+ llvm.return
+ }
+ llvm.func @rocdl_kernel_2(%arg0: f32) attributes {gpu.kernel, rocdl.kernel} {
+ llvm.return
+ }
+ llvm.func @a_kernel(%arg0: f32) attributes {gpu.kernel, rocdl.kernel} {
+ llvm.return
+ }
+ })mlir";
+
OwningOpRef<ModuleOp> module =
parseSourceString<ModuleOp>(moduleStr, &context);
ASSERT_TRUE(!!module);
@@ -189,11 +206,15 @@ TEST_F(MLIRTargetLLVMROCDL, SKIP_WITHOUT_AMDGPU(GetELFMetadata)) {
gpu::KernelTableAttr metadata =
ROCDL::getKernelMetadata(gpuModule, *object);
ASSERT_TRUE(metadata != nullptr);
- // There should be only a single kernel.
- ASSERT_TRUE(metadata.size() == 1);
+ // There should be 4 kernels.
+ ASSERT_TRUE(metadata.size() == 4);
+ // Check that the lookup method returns finds the kernel.
+ ASSERT_TRUE(metadata.lookup("a_kernel") != nullptr);
+ ASSERT_TRUE(metadata.lookup("rocdl_kernel_0") != nullptr);
+ // Check that the kernel doesn't exist.
+ ASSERT_TRUE(metadata.lookup("not_existent_kernel") == nullptr);
// Test the `ROCDLObjectMDAttr` iterators.
- for (auto [name, kernel] : metadata) {
- ASSERT_TRUE(name.getValue() == "rocdl_kernel");
+ for (gpu::KernelAttr kernel : metadata) {
// Check that the ELF metadata is present.
ASSERT_TRUE(kernel.getMetadata() != nullptr);
// Verify that `sgpr_count` is present and it is an integer attribute.
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