llvm-project/mlir/tools/mlir-vulkan-runner/vulkan-runtime-wrappers.cpp

211 lines
7.4 KiB
C++

//===- vulkan-runtime-wrappers.cpp - MLIR Vulkan runner 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 runtime wrappers around the VulkanRuntime.
//
//===----------------------------------------------------------------------===//
#include <iostream>
#include <mutex>
#include <numeric>
#include "VulkanRuntime.h"
// Explicitly export entry points to the vulkan-runtime-wrapper.
#define VULKAN_WRAPPER_SYMBOL_EXPORT __attribute__((visibility("default")))
namespace {
class VulkanRuntimeManager {
public:
VulkanRuntimeManager() = default;
VulkanRuntimeManager(const VulkanRuntimeManager &) = delete;
VulkanRuntimeManager operator=(const VulkanRuntimeManager &) = delete;
~VulkanRuntimeManager() = default;
void setResourceData(DescriptorSetIndex setIndex, BindingIndex bindIndex,
const VulkanHostMemoryBuffer &memBuffer) {
std::lock_guard<std::mutex> lock(mutex);
vulkanRuntime.setResourceData(setIndex, bindIndex, memBuffer);
}
void setEntryPoint(const char *entryPoint) {
std::lock_guard<std::mutex> lock(mutex);
vulkanRuntime.setEntryPoint(entryPoint);
}
void setNumWorkGroups(NumWorkGroups numWorkGroups) {
std::lock_guard<std::mutex> lock(mutex);
vulkanRuntime.setNumWorkGroups(numWorkGroups);
}
void setShaderModule(uint8_t *shader, uint32_t size) {
std::lock_guard<std::mutex> lock(mutex);
vulkanRuntime.setShaderModule(shader, size);
}
void runOnVulkan() {
std::lock_guard<std::mutex> lock(mutex);
if (failed(vulkanRuntime.initRuntime()) || failed(vulkanRuntime.run()) ||
failed(vulkanRuntime.updateHostMemoryBuffers()) ||
failed(vulkanRuntime.destroy())) {
std::cerr << "runOnVulkan failed";
}
}
private:
VulkanRuntime vulkanRuntime;
std::mutex mutex;
};
} // namespace
template <typename T, int N> struct MemRefDescriptor {
T *allocated;
T *aligned;
int64_t offset;
int64_t sizes[N];
int64_t strides[N];
};
template <typename T, uint32_t S>
void bindMemRef(void *vkRuntimeManager, DescriptorSetIndex setIndex,
BindingIndex bindIndex, MemRefDescriptor<T, S> *ptr) {
uint32_t size = sizeof(T);
for (unsigned i = 0; i < S; i++)
size *= ptr->sizes[i];
VulkanHostMemoryBuffer memBuffer{ptr->allocated, size};
reinterpret_cast<VulkanRuntimeManager *>(vkRuntimeManager)
->setResourceData(setIndex, bindIndex, memBuffer);
}
extern "C" {
/// Initializes `VulkanRuntimeManager` and returns a pointer to it.
VULKAN_WRAPPER_SYMBOL_EXPORT void *initVulkan() {
return new VulkanRuntimeManager();
}
/// Deinitializes `VulkanRuntimeManager` by the given pointer.
VULKAN_WRAPPER_SYMBOL_EXPORT void deinitVulkan(void *vkRuntimeManager) {
delete reinterpret_cast<VulkanRuntimeManager *>(vkRuntimeManager);
}
VULKAN_WRAPPER_SYMBOL_EXPORT void runOnVulkan(void *vkRuntimeManager) {
reinterpret_cast<VulkanRuntimeManager *>(vkRuntimeManager)->runOnVulkan();
}
VULKAN_WRAPPER_SYMBOL_EXPORT void setEntryPoint(void *vkRuntimeManager,
const char *entryPoint) {
reinterpret_cast<VulkanRuntimeManager *>(vkRuntimeManager)
->setEntryPoint(entryPoint);
}
VULKAN_WRAPPER_SYMBOL_EXPORT void
setNumWorkGroups(void *vkRuntimeManager, uint32_t x, uint32_t y, uint32_t z) {
reinterpret_cast<VulkanRuntimeManager *>(vkRuntimeManager)
->setNumWorkGroups({x, y, z});
}
VULKAN_WRAPPER_SYMBOL_EXPORT void
setBinaryShader(void *vkRuntimeManager, uint8_t *shader, uint32_t size) {
reinterpret_cast<VulkanRuntimeManager *>(vkRuntimeManager)
->setShaderModule(shader, size);
}
/// Binds the given memref to the given descriptor set and descriptor
/// index.
#define DECLARE_BIND_MEMREF(size, type, typeName) \
VULKAN_WRAPPER_SYMBOL_EXPORT void bindMemRef##size##D##typeName( \
void *vkRuntimeManager, DescriptorSetIndex setIndex, \
BindingIndex bindIndex, MemRefDescriptor<type, size> *ptr) { \
bindMemRef<type, size>(vkRuntimeManager, setIndex, bindIndex, ptr); \
}
DECLARE_BIND_MEMREF(1, float, Float)
DECLARE_BIND_MEMREF(2, float, Float)
DECLARE_BIND_MEMREF(3, float, Float)
DECLARE_BIND_MEMREF(1, int32_t, Int32)
DECLARE_BIND_MEMREF(2, int32_t, Int32)
DECLARE_BIND_MEMREF(3, int32_t, Int32)
DECLARE_BIND_MEMREF(1, int16_t, Int16)
DECLARE_BIND_MEMREF(2, int16_t, Int16)
DECLARE_BIND_MEMREF(3, int16_t, Int16)
DECLARE_BIND_MEMREF(1, int8_t, Int8)
DECLARE_BIND_MEMREF(2, int8_t, Int8)
DECLARE_BIND_MEMREF(3, int8_t, Int8)
DECLARE_BIND_MEMREF(1, int16_t, Half)
DECLARE_BIND_MEMREF(2, int16_t, Half)
DECLARE_BIND_MEMREF(3, int16_t, Half)
/// Fills the given 1D float memref with the given float value.
VULKAN_WRAPPER_SYMBOL_EXPORT void
_mlir_ciface_fillResource1DFloat(MemRefDescriptor<float, 1> *ptr, // NOLINT
float value) {
std::fill_n(ptr->allocated, ptr->sizes[0], value);
}
/// Fills the given 2D float memref with the given float value.
VULKAN_WRAPPER_SYMBOL_EXPORT void
_mlir_ciface_fillResource2DFloat(MemRefDescriptor<float, 2> *ptr, // NOLINT
float value) {
std::fill_n(ptr->allocated, ptr->sizes[0] * ptr->sizes[1], value);
}
/// Fills the given 3D float memref with the given float value.
VULKAN_WRAPPER_SYMBOL_EXPORT void
_mlir_ciface_fillResource3DFloat(MemRefDescriptor<float, 3> *ptr, // NOLINT
float value) {
std::fill_n(ptr->allocated, ptr->sizes[0] * ptr->sizes[1] * ptr->sizes[2],
value);
}
/// Fills the given 1D int memref with the given int value.
VULKAN_WRAPPER_SYMBOL_EXPORT void
_mlir_ciface_fillResource1DInt(MemRefDescriptor<int32_t, 1> *ptr, // NOLINT
int32_t value) {
std::fill_n(ptr->allocated, ptr->sizes[0], value);
}
/// Fills the given 2D int memref with the given int value.
VULKAN_WRAPPER_SYMBOL_EXPORT void
_mlir_ciface_fillResource2DInt(MemRefDescriptor<int32_t, 2> *ptr, // NOLINT
int32_t value) {
std::fill_n(ptr->allocated, ptr->sizes[0] * ptr->sizes[1], value);
}
/// Fills the given 3D int memref with the given int value.
VULKAN_WRAPPER_SYMBOL_EXPORT void
_mlir_ciface_fillResource3DInt(MemRefDescriptor<int32_t, 3> *ptr, // NOLINT
int32_t value) {
std::fill_n(ptr->allocated, ptr->sizes[0] * ptr->sizes[1] * ptr->sizes[2],
value);
}
/// Fills the given 1D int memref with the given int8 value.
VULKAN_WRAPPER_SYMBOL_EXPORT void
_mlir_ciface_fillResource1DInt8(MemRefDescriptor<int8_t, 1> *ptr, // NOLINT
int8_t value) {
std::fill_n(ptr->allocated, ptr->sizes[0], value);
}
/// Fills the given 2D int memref with the given int8 value.
VULKAN_WRAPPER_SYMBOL_EXPORT void
_mlir_ciface_fillResource2DInt8(MemRefDescriptor<int8_t, 2> *ptr, // NOLINT
int8_t value) {
std::fill_n(ptr->allocated, ptr->sizes[0] * ptr->sizes[1], value);
}
/// Fills the given 3D int memref with the given int8 value.
VULKAN_WRAPPER_SYMBOL_EXPORT void
_mlir_ciface_fillResource3DInt8(MemRefDescriptor<int8_t, 3> *ptr, // NOLINT
int8_t value) {
std::fill_n(ptr->allocated, ptr->sizes[0] * ptr->sizes[1] * ptr->sizes[2],
value);
}
}