mlir/lib/ExecutionEngine/RocmRuntimeWrappers.cpp - llvm-project - Git at Google

 //===- RocmRuntimeWrappers.cpp - MLIR ROCM runtime wrapper library --------===//
 //
 // 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
 //
 //===----------------------------------------------------------------------===//
 //
 // Implements C wrappers around the ROCM library for easy linking in ORC jit.
 // Also adds some debugging helpers that are helpful when writing MLIR code to
 // run on GPUs.
 //
 //===----------------------------------------------------------------------===//

 #include <cassert>
 #include <numeric>

 #include "mlir/ExecutionEngine/CRunnerUtils.h"
 #include "llvm/ADT/ArrayRef.h"

 #include "hip/hip_runtime.h"

 #define HIP_REPORT_IF_ERROR(expr)                                              \
   [](hipError_t result) {                                                      \
     if (!result)                                                               \
       return;                                                                  \
     const char *name = hipGetErrorName(result);                                \
     if (!name)                                                                 \
       name = "<unknown>";                                                      \
     fprintf(stderr, "'%s' failed with '%s'\n", #expr, name);                   \
   }(expr)

 // Sets the `Context` for the duration of the instance and restores the previous
 // context on destruction.
 class ScopedContext {
 public:
   ScopedContext() {
     // Static reference to HIP primary context for device ordinal 0.
     static hipCtx_t context = [] {
       HIP_REPORT_IF_ERROR(hipInit(/*flags=*/0));
       hipDevice_t device;
       HIP_REPORT_IF_ERROR(hipDeviceGet(&device, /*ordinal=*/0));
       hipCtx_t ctx;
       HIP_REPORT_IF_ERROR(hipDevicePrimaryCtxRetain(&ctx, device));
       return ctx;
     }();

     HIP_REPORT_IF_ERROR(hipCtxPushCurrent(context));
   }

   ~ScopedContext() { HIP_REPORT_IF_ERROR(hipCtxPopCurrent(nullptr)); }
 };

 extern "C" hipModule_t mgpuModuleLoad(void *data) {
   ScopedContext scopedContext;
   hipModule_t module = nullptr;
   HIP_REPORT_IF_ERROR(hipModuleLoadData(&module, data));
   return module;
 }

 extern "C" void mgpuModuleUnload(hipModule_t module) {
   HIP_REPORT_IF_ERROR(hipModuleUnload(module));
 }

 extern "C" hipFunction_t mgpuModuleGetFunction(hipModule_t module,
                                                const char *name) {
   hipFunction_t function = nullptr;
   HIP_REPORT_IF_ERROR(hipModuleGetFunction(&function, module, name));
   return function;
 }

 // The wrapper uses intptr_t instead of ROCM's unsigned int to match
 // the type of MLIR's index type. This avoids the need for casts in the
 // generated MLIR code.
 extern "C" void mgpuLaunchKernel(hipFunction_t function, intptr_t gridX,
                                  intptr_t gridY, intptr_t gridZ,
                                  intptr_t blockX, intptr_t blockY,
                                  intptr_t blockZ, int32_t smem,
                                  hipStream_t stream, void **params,
                                  void **extra) {
   ScopedContext scopedContext;
   HIP_REPORT_IF_ERROR(hipModuleLaunchKernel(function, gridX, gridY, gridZ,
                                             blockX, blockY, blockZ, smem,
                                             stream, params, extra));
 }

 extern "C" hipStream_t mgpuStreamCreate() {
   ScopedContext scopedContext;
   hipStream_t stream = nullptr;
   HIP_REPORT_IF_ERROR(hipStreamCreate(&stream));
   return stream;
 }

 extern "C" void mgpuStreamDestroy(hipStream_t stream) {
   HIP_REPORT_IF_ERROR(hipStreamDestroy(stream));
 }

 extern "C" void mgpuStreamSynchronize(hipStream_t stream) {
   return HIP_REPORT_IF_ERROR(hipStreamSynchronize(stream));
 }

 extern "C" void mgpuStreamWaitEvent(hipStream_t stream, hipEvent_t event) {
   HIP_REPORT_IF_ERROR(hipStreamWaitEvent(stream, event, /*flags=*/0));
 }

 extern "C" hipEvent_t mgpuEventCreate() {
   ScopedContext scopedContext;
   hipEvent_t event = nullptr;
   HIP_REPORT_IF_ERROR(hipEventCreateWithFlags(&event, hipEventDisableTiming));
   return event;
 }

 extern "C" void mgpuEventDestroy(hipEvent_t event) {
   HIP_REPORT_IF_ERROR(hipEventDestroy(event));
 }

 extern "C" void mgpuEventSynchronize(hipEvent_t event) {
   HIP_REPORT_IF_ERROR(hipEventSynchronize(event));
 }

 extern "C" void mgpuEventRecord(hipEvent_t event, hipStream_t stream) {
   HIP_REPORT_IF_ERROR(hipEventRecord(event, stream));
 }

 extern "C" void *mgpuMemAlloc(uint64_t sizeBytes, hipStream_t /*stream*/) {
   ScopedContext scopedContext;
   void *ptr;
   HIP_REPORT_IF_ERROR(hipMalloc(&ptr, sizeBytes));
   return ptr;
 }

 extern "C" void mgpuMemFree(void *ptr, hipStream_t /*stream*/) {
   HIP_REPORT_IF_ERROR(hipFree(ptr));
 }

 extern "C" void mgpuMemcpy(void *dst, void *src, size_t sizeBytes,
                            hipStream_t stream) {
   HIP_REPORT_IF_ERROR(
       hipMemcpyAsync(dst, src, sizeBytes, hipMemcpyDefault, stream));
 }

 extern "C" void mgpuMemset32(void *dst, int value, size_t count,
                              hipStream_t stream) {
   HIP_REPORT_IF_ERROR(hipMemsetD32Async(reinterpret_cast<hipDeviceptr_t>(dst),
                                         value, count, stream));
 }
 /// Helper functions for writing mlir example code

 // Allows to register byte array with the ROCM runtime. Helpful until we have
 // transfer functions implemented.
 extern "C" void mgpuMemHostRegister(void *ptr, uint64_t sizeBytes) {
   ScopedContext scopedContext;
   HIP_REPORT_IF_ERROR(hipHostRegister(ptr, sizeBytes, /*flags=*/0));
 }

 // Allows to register a MemRef with the ROCm runtime. Helpful until we have
 // transfer functions implemented.
 extern "C" void
 mgpuMemHostRegisterMemRef(int64_t rank, StridedMemRefType<char, 1> *descriptor,
                           int64_t elementSizeBytes) {

   llvm::SmallVector<int64_t, 4> denseStrides(rank);
   llvm::ArrayRef<int64_t> sizes(descriptor->sizes, rank);
   llvm::ArrayRef<int64_t> strides(sizes.end(), rank);

   std::partial_sum(sizes.rbegin(), sizes.rend(), denseStrides.rbegin(),
                    std::multiplies<int64_t>());
   auto sizeBytes = denseStrides.front() * elementSizeBytes;

   // Only densely packed tensors are currently supported.
   std::rotate(denseStrides.begin(), denseStrides.begin() + 1,
               denseStrides.end());
   denseStrides.back() = 1;
   assert(strides == llvm::makeArrayRef(denseStrides));

   auto ptr = descriptor->data + descriptor->offset * elementSizeBytes;
   mgpuMemHostRegister(ptr, sizeBytes);
 }

 template <typename T>
 void mgpuMemGetDevicePointer(T *hostPtr, T **devicePtr) {
   HIP_REPORT_IF_ERROR(hipSetDevice(0));
   HIP_REPORT_IF_ERROR(
       hipHostGetDevicePointer((void **)devicePtr, hostPtr, /*flags=*/0));
 }

 extern "C" StridedMemRefType<float, 1>
 mgpuMemGetDeviceMemRef1dFloat(float *allocated, float *aligned, int64_t offset,
                               int64_t size, int64_t stride) {
   float *devicePtr = nullptr;
   mgpuMemGetDevicePointer(aligned, &devicePtr);
   return {devicePtr, devicePtr, offset, {size}, {stride}};
 }

 extern "C" StridedMemRefType<int32_t, 1>
 mgpuMemGetDeviceMemRef1dInt32(int32_t *allocated, int32_t *aligned,
                               int64_t offset, int64_t size, int64_t stride) {
   int32_t *devicePtr = nullptr;
   mgpuMemGetDevicePointer(aligned, &devicePtr);
   return {devicePtr, devicePtr, offset, {size}, {stride}};
 }
	//===- RocmRuntimeWrappers.cpp - MLIR ROCM runtime wrapper library --------===//
	//
	// 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
	//
	//===----------------------------------------------------------------------===//
	//
	// Implements C wrappers around the ROCM library for easy linking in ORC jit.
	// Also adds some debugging helpers that are helpful when writing MLIR code to
	// run on GPUs.
	//
	//===----------------------------------------------------------------------===//

	#include <cassert>
	#include <numeric>

	#include "mlir/ExecutionEngine/CRunnerUtils.h"
	#include "llvm/ADT/ArrayRef.h"

	#include "hip/hip_runtime.h"

	#define HIP_REPORT_IF_ERROR(expr) \
	[](hipError_t result) { \
	if (!result) \
	return; \
	const char *name = hipGetErrorName(result); \
	if (!name) \
	name = "<unknown>"; \
	fprintf(stderr, "'%s' failed with '%s'\n", #expr, name); \
	}(expr)

	// Sets the `Context` for the duration of the instance and restores the previous
	// context on destruction.
	class ScopedContext {
	public:
	ScopedContext() {
	// Static reference to HIP primary context for device ordinal 0.
	static hipCtx_t context = [] {
	HIP_REPORT_IF_ERROR(hipInit(/flags=/0));
	hipDevice_t device;
	HIP_REPORT_IF_ERROR(hipDeviceGet(&device, /ordinal=/0));
	hipCtx_t ctx;
	HIP_REPORT_IF_ERROR(hipDevicePrimaryCtxRetain(&ctx, device));
	return ctx;
	}();

	HIP_REPORT_IF_ERROR(hipCtxPushCurrent(context));
	}

	~ScopedContext() { HIP_REPORT_IF_ERROR(hipCtxPopCurrent(nullptr)); }
	};

	extern "C" hipModule_t mgpuModuleLoad(void *data) {
	ScopedContext scopedContext;
	hipModule_t module = nullptr;
	HIP_REPORT_IF_ERROR(hipModuleLoadData(&module, data));
	return module;
	}

	extern "C" void mgpuModuleUnload(hipModule_t module) {
	HIP_REPORT_IF_ERROR(hipModuleUnload(module));
	}

	extern "C" hipFunction_t mgpuModuleGetFunction(hipModule_t module,
	const char *name) {
	hipFunction_t function = nullptr;
	HIP_REPORT_IF_ERROR(hipModuleGetFunction(&function, module, name));
	return function;
	}

	// The wrapper uses intptr_t instead of ROCM's unsigned int to match
	// the type of MLIR's index type. This avoids the need for casts in the
	// generated MLIR code.
	extern "C" void mgpuLaunchKernel(hipFunction_t function, intptr_t gridX,
	intptr_t gridY, intptr_t gridZ,
	intptr_t blockX, intptr_t blockY,
	intptr_t blockZ, int32_t smem,
	hipStream_t stream, void **params,
	void **extra) {
	ScopedContext scopedContext;
	HIP_REPORT_IF_ERROR(hipModuleLaunchKernel(function, gridX, gridY, gridZ,
	blockX, blockY, blockZ, smem,
	stream, params, extra));
	}

	extern "C" hipStream_t mgpuStreamCreate() {
	ScopedContext scopedContext;
	hipStream_t stream = nullptr;
	HIP_REPORT_IF_ERROR(hipStreamCreate(&stream));
	return stream;
	}

	extern "C" void mgpuStreamDestroy(hipStream_t stream) {
	HIP_REPORT_IF_ERROR(hipStreamDestroy(stream));
	}

	extern "C" void mgpuStreamSynchronize(hipStream_t stream) {
	return HIP_REPORT_IF_ERROR(hipStreamSynchronize(stream));
	}

	extern "C" void mgpuStreamWaitEvent(hipStream_t stream, hipEvent_t event) {
	HIP_REPORT_IF_ERROR(hipStreamWaitEvent(stream, event, /flags=/0));
	}

	extern "C" hipEvent_t mgpuEventCreate() {
	ScopedContext scopedContext;
	hipEvent_t event = nullptr;
	HIP_REPORT_IF_ERROR(hipEventCreateWithFlags(&event, hipEventDisableTiming));
	return event;
	}

	extern "C" void mgpuEventDestroy(hipEvent_t event) {
	HIP_REPORT_IF_ERROR(hipEventDestroy(event));
	}

	extern "C" void mgpuEventSynchronize(hipEvent_t event) {
	HIP_REPORT_IF_ERROR(hipEventSynchronize(event));
	}

	extern "C" void mgpuEventRecord(hipEvent_t event, hipStream_t stream) {
	HIP_REPORT_IF_ERROR(hipEventRecord(event, stream));
	}

	extern "C" void mgpuMemAlloc(uint64_t sizeBytes, hipStream_t /stream*/) {
	ScopedContext scopedContext;
	void *ptr;
	HIP_REPORT_IF_ERROR(hipMalloc(&ptr, sizeBytes));
	return ptr;
	}

	extern "C" void mgpuMemFree(void ptr, hipStream_t /stream*/) {
	HIP_REPORT_IF_ERROR(hipFree(ptr));
	}

	extern "C" void mgpuMemcpy(void dst, void src, size_t sizeBytes,
	hipStream_t stream) {
	HIP_REPORT_IF_ERROR(
	hipMemcpyAsync(dst, src, sizeBytes, hipMemcpyDefault, stream));
	}

	extern "C" void mgpuMemset32(void *dst, int value, size_t count,
	hipStream_t stream) {
	HIP_REPORT_IF_ERROR(hipMemsetD32Async(reinterpret_cast<hipDeviceptr_t>(dst),
	value, count, stream));
	}
	/// Helper functions for writing mlir example code

	// Allows to register byte array with the ROCM runtime. Helpful until we have
	// transfer functions implemented.
	extern "C" void mgpuMemHostRegister(void *ptr, uint64_t sizeBytes) {
	ScopedContext scopedContext;
	HIP_REPORT_IF_ERROR(hipHostRegister(ptr, sizeBytes, /flags=/0));
	}

	// Allows to register a MemRef with the ROCm runtime. Helpful until we have
	// transfer functions implemented.
	extern "C" void
	mgpuMemHostRegisterMemRef(int64_t rank, StridedMemRefType<char, 1> *descriptor,
	int64_t elementSizeBytes) {

	llvm::SmallVector<int64_t, 4> denseStrides(rank);
	llvm::ArrayRef<int64_t> sizes(descriptor->sizes, rank);
	llvm::ArrayRef<int64_t> strides(sizes.end(), rank);

	std::partial_sum(sizes.rbegin(), sizes.rend(), denseStrides.rbegin(),
	std::multiplies<int64_t>());
	auto sizeBytes = denseStrides.front() * elementSizeBytes;

	// Only densely packed tensors are currently supported.
	std::rotate(denseStrides.begin(), denseStrides.begin() + 1,
	denseStrides.end());
	denseStrides.back() = 1;
	assert(strides == llvm::makeArrayRef(denseStrides));

	auto ptr = descriptor->data + descriptor->offset * elementSizeBytes;
	mgpuMemHostRegister(ptr, sizeBytes);
	}

	template <typename T>
	void mgpuMemGetDevicePointer(T hostPtr, T *devicePtr) {
	HIP_REPORT_IF_ERROR(hipSetDevice(0));
	HIP_REPORT_IF_ERROR(
	hipHostGetDevicePointer((void *)devicePtr, hostPtr, /flags=*/0));
	}

	extern "C" StridedMemRefType<float, 1>
	mgpuMemGetDeviceMemRef1dFloat(float allocated, float aligned, int64_t offset,
	int64_t size, int64_t stride) {
	float *devicePtr = nullptr;
	mgpuMemGetDevicePointer(aligned, &devicePtr);
	return {devicePtr, devicePtr, offset, {size}, {stride}};
	}

	extern "C" StridedMemRefType<int32_t, 1>
	mgpuMemGetDeviceMemRef1dInt32(int32_t allocated, int32_t aligned,
	int64_t offset, int64_t size, int64_t stride) {
	int32_t *devicePtr = nullptr;
	mgpuMemGetDevicePointer(aligned, &devicePtr);
	return {devicePtr, devicePtr, offset, {size}, {stride}};
	}