compute-runtime/level_zero/core/source/kernel/kernel.h

/*
 * Copyright (C) 2019-2020 Intel Corporation
 *
 * SPDX-License-Identifier: MIT
 *
 */

#pragma once

#include "shared/source/kernel/dispatch_kernel_encoder_interface.h"
#include "shared/source/kernel/kernel_descriptor.h"
#include "shared/source/memory_manager/graphics_allocation.h"
#include "shared/source/unified_memory/unified_memory.h"

#include <level_zero/ze_api.h>

#include "third_party/level_zero/ze_api_ext.h"

#include <memory>
#include <vector>

struct _ze_kernel_handle_t {};

namespace NEO {
class Device;
struct KernelInfo;
class MemoryManager;
} // namespace NEO

namespace L0 {
struct Device;
struct Module;

struct KernelImmutableData {
    KernelImmutableData(L0::Device *l0device = nullptr);
    virtual ~KernelImmutableData();

    void initialize(NEO::KernelInfo *kernelInfo, NEO::MemoryManager &memoryManager, const NEO::Device *device,
                    uint32_t computeUnitsUsedForSratch,
                    NEO::GraphicsAllocation *globalConstBuffer, NEO::GraphicsAllocation *globalVarBuffer);

    const std::vector<NEO::GraphicsAllocation *> &getResidencyContainer() const {
        return residencyContainer;
    }

    uint32_t getIsaSize() const;
    NEO::GraphicsAllocation *getIsaGraphicsAllocation() const { return isaGraphicsAllocation.get(); }

    uint64_t getPrivateMemorySize() const;
    NEO::GraphicsAllocation *getPrivateMemoryGraphicsAllocation() const { return privateMemoryGraphicsAllocation.get(); }

    const uint8_t *getCrossThreadDataTemplate() const { return crossThreadDataTemplate.get(); }

    uint32_t getSurfaceStateHeapSize() const { return surfaceStateHeapSize; }
    const uint8_t *getSurfaceStateHeapTemplate() const { return surfaceStateHeapTemplate.get(); }

    uint32_t getDynamicStateHeapDataSize() const { return dynamicStateHeapSize; }
    const uint8_t *getDynamicStateHeapTemplate() const { return dynamicStateHeapTemplate.get(); }

    const NEO::KernelDescriptor &getDescriptor() const { return *kernelDescriptor; }

    Device *getDevice() { return this->device; }

  protected:
    Device *device = nullptr;
    NEO::KernelDescriptor *kernelDescriptor = nullptr;
    std::unique_ptr<NEO::GraphicsAllocation> isaGraphicsAllocation = nullptr;
    std::unique_ptr<NEO::GraphicsAllocation> privateMemoryGraphicsAllocation = nullptr;

    uint32_t crossThreadDataSize = 0;
    std::unique_ptr<uint8_t[]> crossThreadDataTemplate = nullptr;

    uint32_t surfaceStateHeapSize = 0;
    std::unique_ptr<uint8_t[]> surfaceStateHeapTemplate = nullptr;

    uint32_t dynamicStateHeapSize = 0;
    std::unique_ptr<uint8_t[]> dynamicStateHeapTemplate = nullptr;

    std::vector<NEO::GraphicsAllocation *> residencyContainer;
};

struct Kernel : _ze_kernel_handle_t, virtual NEO::DispatchKernelEncoderI {
    template <typename Type>
    struct Allocator {
        static Kernel *allocate(Module *module) { return new Type(module); }
    };

    static Kernel *create(uint32_t productFamily, Module *module,
                          const ze_kernel_desc_t *desc, ze_result_t *ret);

    ~Kernel() override = default;

    virtual ze_result_t destroy() = 0;
    virtual ze_result_t setAttribute(ze_kernel_attribute_t attr, uint32_t size, const void *pValue) = 0;
    virtual ze_result_t getAttribute(ze_kernel_attribute_t attr, uint32_t *pSize, void *pValue) = 0;
    virtual ze_result_t setIntermediateCacheConfig(ze_cache_config_t cacheConfig) = 0;
    virtual ze_result_t getProperties(ze_kernel_properties_t *pKernelProperties) = 0;
    virtual ze_result_t getPropertiesExt(ze_kernel_propertiesExt_t *pKernelProperties) = 0;
    virtual ze_result_t setArgumentValue(uint32_t argIndex, size_t argSize, const void *pArgValue) = 0;
    virtual void setGroupCount(uint32_t groupCountX, uint32_t groupCountY, uint32_t groupCountZ) = 0;

    virtual ze_result_t setArgBufferWithAlloc(uint32_t argIndex, uintptr_t argVal, NEO::GraphicsAllocation *allocation) = 0;
    virtual ze_result_t setArgRedescribedImage(uint32_t argIndex, ze_image_handle_t argVal) = 0;
    virtual ze_result_t setGroupSize(uint32_t groupSizeX, uint32_t groupSizeY,
                                     uint32_t groupSizeZ) = 0;
    virtual ze_result_t suggestGroupSize(uint32_t globalSizeX, uint32_t globalSizeY,
                                         uint32_t globalSizeZ, uint32_t *groupSizeX,
                                         uint32_t *groupSizeY, uint32_t *groupSizeZ) = 0;
    virtual ze_result_t getKernelName(size_t *pSize, char *pName) = 0;

    virtual ze_result_t suggestMaxCooperativeGroupCount(uint32_t *totalGroupCount) = 0;

    virtual const KernelImmutableData *getImmutableData() const = 0;
    virtual std::unique_ptr<Kernel> clone() const = 0;

    virtual const std::vector<NEO::GraphicsAllocation *> &getResidencyContainer() const = 0;

    virtual UnifiedMemoryControls getUnifiedMemoryControls() const = 0;
    virtual bool hasIndirectAllocationsAllowed() const = 0;

    virtual NEO::GraphicsAllocation *getPrintfBufferAllocation() = 0;
    virtual void printPrintfOutput() = 0;

    Kernel() = default;
    Kernel(const Kernel &) = delete;
    Kernel(Kernel &&) = delete;
    Kernel &operator=(const Kernel &) = delete;
    Kernel &operator=(Kernel &&) = delete;

    static Kernel *fromHandle(ze_kernel_handle_t handle) { return static_cast<Kernel *>(handle); }

    inline ze_kernel_handle_t toHandle() { return this; }
};

using KernelAllocatorFn = Kernel *(*)(Module *module);
extern KernelAllocatorFn kernelFactory[];

template <uint32_t productFamily, typename KernelType>
struct KernelPopulateFactory {
    KernelPopulateFactory() {
        kernelFactory[productFamily] = KernelType::template Allocator<KernelType>::allocate;
    }
};

} // namespace L0
Initial support for oneAPI Level Zero Change-Id: I221df8427b1844237a4d9d900c58512706b0be0f 2020-03-06 18:09:57 +08:00			`/*`
			`* Copyright (C) 2019-2020 Intel Corporation`
			`*`
			`* SPDX-License-Identifier: MIT`
			`*`
			`*/`

			`#pragma once`

			`#include "shared/source/kernel/dispatch_kernel_encoder_interface.h"`
			`#include "shared/source/kernel/kernel_descriptor.h"`
			`#include "shared/source/memory_manager/graphics_allocation.h"`
			`#include "shared/source/unified_memory/unified_memory.h"`

			`#include <level_zero/ze_api.h>`

Add stub for dynamic link function and for extended kernel properties Change-Id: Ifaaf1226114233618e7959def086989cf93bd0bd Signed-off: Jaime Arteaga <jaime.a.arteaga.molina@intel.com> 2020-06-17 22:43:24 +08:00			`#include "third_party/level_zero/ze_api_ext.h"`

Initial support for oneAPI Level Zero Change-Id: I221df8427b1844237a4d9d900c58512706b0be0f 2020-03-06 18:09:57 +08:00			`#include <memory>`
			`#include <vector>`

			`struct _ze_kernel_handle_t {};`

			`namespace NEO {`
			`class Device;`
			`struct KernelInfo;`
			`class MemoryManager;`
			`} // namespace NEO`

			`namespace L0 {`
			`struct Device;`
			`struct Module;`

			`struct KernelImmutableData {`
			`KernelImmutableData(L0::Device *l0device = nullptr);`
			`virtual ~KernelImmutableData();`

			`void initialize(NEO::KernelInfo kernelInfo, NEO::MemoryManager &memoryManager, const NEO::Device device,`
			`uint32_t computeUnitsUsedForSratch,`
			`NEO::GraphicsAllocation globalConstBuffer, NEO::GraphicsAllocation globalVarBuffer);`

			`const std::vector<NEO::GraphicsAllocation *> &getResidencyContainer() const {`
			`return residencyContainer;`
			`}`

			`uint32_t getIsaSize() const;`
			`NEO::GraphicsAllocation *getIsaGraphicsAllocation() const { return isaGraphicsAllocation.get(); }`

			`uint64_t getPrivateMemorySize() const;`
			`NEO::GraphicsAllocation *getPrivateMemoryGraphicsAllocation() const { return privateMemoryGraphicsAllocation.get(); }`

			`const uint8_t *getCrossThreadDataTemplate() const { return crossThreadDataTemplate.get(); }`

			`uint32_t getSurfaceStateHeapSize() const { return surfaceStateHeapSize; }`
			`const uint8_t *getSurfaceStateHeapTemplate() const { return surfaceStateHeapTemplate.get(); }`

			`uint32_t getDynamicStateHeapDataSize() const { return dynamicStateHeapSize; }`
			`const uint8_t *getDynamicStateHeapTemplate() const { return dynamicStateHeapTemplate.get(); }`

			`const NEO::KernelDescriptor &getDescriptor() const { return *kernelDescriptor; }`

			`Device *getDevice() { return this->device; }`

			`protected:`
			`Device *device = nullptr;`
			`NEO::KernelDescriptor *kernelDescriptor = nullptr;`
			`std::unique_ptr<NEO::GraphicsAllocation> isaGraphicsAllocation = nullptr;`
			`std::unique_ptr<NEO::GraphicsAllocation> privateMemoryGraphicsAllocation = nullptr;`

			`uint32_t crossThreadDataSize = 0;`
			`std::unique_ptr<uint8_t[]> crossThreadDataTemplate = nullptr;`

			`uint32_t surfaceStateHeapSize = 0;`
			`std::unique_ptr<uint8_t[]> surfaceStateHeapTemplate = nullptr;`

			`uint32_t dynamicStateHeapSize = 0;`
			`std::unique_ptr<uint8_t[]> dynamicStateHeapTemplate = nullptr;`

			`std::vector<NEO::GraphicsAllocation *> residencyContainer;`
			`};`

			`struct Kernel : _ze_kernel_handle_t, virtual NEO::DispatchKernelEncoderI {`
			`template <typename Type>`
			`struct Allocator {`
			`static Kernel allocate(Module module) { return new Type(module); }`
			`};`

			`static Kernel create(uint32_t productFamily, Module module,`
			`const ze_kernel_desc_t desc, ze_result_t ret);`

			`~Kernel() override = default;`

			`virtual ze_result_t destroy() = 0;`
			`virtual ze_result_t setAttribute(ze_kernel_attribute_t attr, uint32_t size, const void *pValue) = 0;`
			`virtual ze_result_t getAttribute(ze_kernel_attribute_t attr, uint32_t pSize, void pValue) = 0;`
			`virtual ze_result_t setIntermediateCacheConfig(ze_cache_config_t cacheConfig) = 0;`
			`virtual ze_result_t getProperties(ze_kernel_properties_t *pKernelProperties) = 0;`
Add stub for dynamic link function and for extended kernel properties Change-Id: Ifaaf1226114233618e7959def086989cf93bd0bd Signed-off: Jaime Arteaga <jaime.a.arteaga.molina@intel.com> 2020-06-17 22:43:24 +08:00			`virtual ze_result_t getPropertiesExt(ze_kernel_propertiesExt_t *pKernelProperties) = 0;`
Initial support for oneAPI Level Zero Change-Id: I221df8427b1844237a4d9d900c58512706b0be0f 2020-03-06 18:09:57 +08:00			`virtual ze_result_t setArgumentValue(uint32_t argIndex, size_t argSize, const void *pArgValue) = 0;`
			`virtual void setGroupCount(uint32_t groupCountX, uint32_t groupCountY, uint32_t groupCountZ) = 0;`

Refactor setArgBufferWithAlloc, add zello_world blackbox test Change-Id: I793f960582ce8c066dedd466befcbf534d6d7ddc Signed-off-by: Mateusz Hoppe <mateusz.hoppe@intel.com> 2020-05-05 16:23:53 +08:00			`virtual ze_result_t setArgBufferWithAlloc(uint32_t argIndex, uintptr_t argVal, NEO::GraphicsAllocation *allocation) = 0;`
Initial support for oneAPI Level Zero Change-Id: I221df8427b1844237a4d9d900c58512706b0be0f 2020-03-06 18:09:57 +08:00			`virtual ze_result_t setArgRedescribedImage(uint32_t argIndex, ze_image_handle_t argVal) = 0;`
			`virtual ze_result_t setGroupSize(uint32_t groupSizeX, uint32_t groupSizeY,`
			`uint32_t groupSizeZ) = 0;`
			`virtual ze_result_t suggestGroupSize(uint32_t globalSizeX, uint32_t globalSizeY,`
			`uint32_t globalSizeZ, uint32_t *groupSizeX,`
			`uint32_t groupSizeY, uint32_t groupSizeZ) = 0;`
Add support for zeKernelGetName Change-Id: I167cc202436b6a76841c56e46baa684e7be90132 Signed-off: Jaime Arteaga <jaime.a.arteaga.molina@intel.com> 2020-07-31 02:04:16 +08:00			`virtual ze_result_t getKernelName(size_t pSize, char pName) = 0;`
Initial support for oneAPI Level Zero Change-Id: I221df8427b1844237a4d9d900c58512706b0be0f 2020-03-06 18:09:57 +08:00
Remove parameter validation from core API This is implemented in the loader Change-Id: Ic114f569c4e3ebe6e667f6d89f14af21a1f14123 Signed-off-by: Jaime Arteaga <jaime.a.arteaga.molina@intel.com> 2020-03-11 14:19:06 +08:00			`virtual ze_result_t suggestMaxCooperativeGroupCount(uint32_t *totalGroupCount) = 0;`
Initial support for oneAPI Level Zero Change-Id: I221df8427b1844237a4d9d900c58512706b0be0f 2020-03-06 18:09:57 +08:00
			`virtual const KernelImmutableData *getImmutableData() const = 0;`
			`virtual std::unique_ptr<Kernel> clone() const = 0;`

			`virtual const std::vector<NEO::GraphicsAllocation *> &getResidencyContainer() const = 0;`

			`virtual UnifiedMemoryControls getUnifiedMemoryControls() const = 0;`
Add const suffix to hasIndirectAllocationsAllowed() Change-Id: I6b84410cc3804d8fa889aeb32128b250f4464757 Signed-off-by: Raiyan Latif <raiyan.latif@intel.com> 2020-03-13 03:21:37 +08:00			`virtual bool hasIndirectAllocationsAllowed() const = 0;`
Initial support for oneAPI Level Zero Change-Id: I221df8427b1844237a4d9d900c58512706b0be0f 2020-03-06 18:09:57 +08:00
			`virtual NEO::GraphicsAllocation *getPrintfBufferAllocation() = 0;`
			`virtual void printPrintfOutput() = 0;`

			`Kernel() = default;`
			`Kernel(const Kernel &) = delete;`
			`Kernel(Kernel &&) = delete;`
			`Kernel &operator=(const Kernel &) = delete;`
			`Kernel &operator=(Kernel &&) = delete;`

			`static Kernel fromHandle(ze_kernel_handle_t handle) { return static_cast<Kernel >(handle); }`

			`inline ze_kernel_handle_t toHandle() { return this; }`
			`};`

			`using KernelAllocatorFn = Kernel ()(Module *module);`
			`extern KernelAllocatorFn kernelFactory[];`

			`template <uint32_t productFamily, typename KernelType>`
			`struct KernelPopulateFactory {`
			`KernelPopulateFactory() {`
			`kernelFactory[productFamily] = KernelType::template Allocator<KernelType>::allocate;`
			`}`
			`};`

			`} // namespace L0`