0fed29f77c
Change-Id: Ia8c4d3edc7ad96efa429b3530a118199d4f92902
273 строки
11 KiB
C++
273 строки
11 KiB
C++
/* Copyright (c) 2022 Advanced Micro Devices, Inc.
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Permission is hereby granted, free of charge, to any person obtaining a copy
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of this software and associated documentation files (the "Software"), to deal
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in the Software without restriction, including without limitation the rights
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to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
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copies of the Software, and to permit persons to whom the Software is
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furnished to do so, subject to the following conditions:
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The above copyright notice and this permission notice shall be included in
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all copies or substantial portions of the Software.
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THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
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IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
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FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
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AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
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LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
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OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
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THE SOFTWARE. */
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#include "hip_mempool_impl.hpp"
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/**
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* API interfaces
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*/
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extern hipError_t ihipFree(void* ptr);
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// ================================================================================================
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hipError_t hipDeviceGetDefaultMemPool(hipMemPool_t* mem_pool, int device) {
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HIP_INIT_API(hipDeviceGetDefaultMemPool, mem_pool, device);
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if ((mem_pool == nullptr) || (device >= g_devices.size())) {
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HIP_RETURN(hipErrorInvalidValue);
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}
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*mem_pool = reinterpret_cast<hipMemPool_t>(g_devices[device]->GetDefaultMemoryPool());
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HIP_RETURN(hipSuccess);
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}
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// ================================================================================================
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hipError_t hipDeviceSetMemPool(int device, hipMemPool_t mem_pool) {
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HIP_INIT_API(hipDeviceSetMemPool, device, mem_pool);
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if ((mem_pool == nullptr) || (device >= g_devices.size())) {
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HIP_RETURN(hipErrorInvalidValue);
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}
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g_devices[device]->SetCurrentMemoryPool(reinterpret_cast<hip::MemoryPool*>(mem_pool));
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HIP_RETURN(hipSuccess);
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}
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// ================================================================================================
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hipError_t hipDeviceGetMemPool(hipMemPool_t* mem_pool, int device) {
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HIP_INIT_API(hipDeviceGetMemPool, mem_pool, device);
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if ((mem_pool == nullptr) || (device >= g_devices.size())) {
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HIP_RETURN(hipErrorInvalidValue);
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}
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*mem_pool = reinterpret_cast<hipMemPool_t>(g_devices[device]->GetCurrentMemoryPool());
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HIP_RETURN(hipSuccess);
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}
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// ================================================================================================
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hipError_t hipMallocAsync(void** dev_ptr, size_t size, hipStream_t stream) {
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HIP_INIT_API(hipMallocAsync, dev_ptr, size, stream);
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if ((dev_ptr == nullptr) || (size == 0) || (!hip::isValid(stream))) {
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HIP_RETURN(hipErrorInvalidValue);
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}
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auto hip_stream = (stream == nullptr) ? hip::getCurrentDevice()->GetNullStream() :
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reinterpret_cast<hip::Stream*>(stream);
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auto device = hip_stream->GetDevice();
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auto mem_pool = device->GetCurrentMemoryPool();
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*dev_ptr = reinterpret_cast<hip::MemoryPool*>(mem_pool)->AllocateMemory(size, hip_stream);
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HIP_RETURN(hipSuccess);
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}
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// ================================================================================================
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hipError_t hipFreeAsync(void* dev_ptr, hipStream_t stream) {
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HIP_INIT_API(hipFreeAsync, dev_ptr, stream);
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if ((dev_ptr == nullptr) || (!hip::isValid(stream))) {
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HIP_RETURN(hipErrorInvalidValue);
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}
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size_t offset = 0;
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auto memory = getMemoryObject(dev_ptr, offset);
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auto id = memory->getUserData().deviceId;
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auto hip_stream = (stream == nullptr) ? hip::getCurrentDevice()->GetNullStream() :
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reinterpret_cast<hip::Stream*>(stream);
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if (!g_devices[id]->FreeMemory(memory, hip_stream)) {
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//! @todo It's not the most optimal logic. The current implementation has unconditional waits
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HIP_RETURN(ihipFree(dev_ptr));
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}
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HIP_RETURN(hipSuccess);
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}
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// ================================================================================================
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hipError_t hipMemPoolTrimTo(hipMemPool_t mem_pool, size_t min_bytes_to_hold) {
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HIP_INIT_API(hipMemPoolTrimTo, mem_pool, min_bytes_to_hold);
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if (mem_pool == nullptr) {
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HIP_RETURN(hipErrorInvalidValue);
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}
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hip::MemoryPool* hip_mem_pool = reinterpret_cast<hip::MemoryPool*>(mem_pool);
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hip_mem_pool->TrimTo(min_bytes_to_hold);
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HIP_RETURN(hipSuccess);
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}
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// ================================================================================================
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hipError_t hipMemPoolSetAttribute(hipMemPool_t mem_pool, hipMemPoolAttr attr, void* value) {
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HIP_INIT_API(hipMemPoolSetAttribute, mem_pool, attr, value);
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if (mem_pool == nullptr || value == nullptr) {
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HIP_RETURN(hipErrorInvalidValue);
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}
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auto hip_mem_pool = reinterpret_cast<hip::MemoryPool*>(mem_pool);
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HIP_RETURN(hip_mem_pool->SetAttribute(attr, value));
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}
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// ================================================================================================
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hipError_t hipMemPoolGetAttribute(hipMemPool_t mem_pool, hipMemPoolAttr attr, void* value) {
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HIP_INIT_API(hipMemPoolGetAttribute, mem_pool, attr, value);
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if (mem_pool == nullptr || value == nullptr) {
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HIP_RETURN(hipErrorInvalidValue);
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}
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auto hip_mem_pool = reinterpret_cast<hip::MemoryPool*>(mem_pool);
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HIP_RETURN(hip_mem_pool->GetAttribute(attr, value));
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}
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// ================================================================================================
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hipError_t hipMemPoolSetAccess(
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hipMemPool_t mem_pool,
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const hipMemAccessDesc* desc_list,
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size_t count) {
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HIP_INIT_API(hipMemPoolSetAccess, mem_pool, desc_list, count);
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if ((mem_pool == nullptr) || (desc_list == nullptr)) {
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HIP_RETURN(hipErrorInvalidValue);
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}
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auto hip_mem_pool = reinterpret_cast<hip::MemoryPool*>(mem_pool);
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for (int i = 0; i < count; ++i) {
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if (desc_list[i].location.type == hipMemLocationTypeDevice) {
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if (desc_list[i].location.id >= g_devices.size()) {
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HIP_RETURN(hipErrorInvalidValue);
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}
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auto device = g_devices[desc_list[i].location.id];
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hip_mem_pool->SetAccess(device, desc_list[i].flags);
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} else {
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HIP_RETURN(hipErrorInvalidValue);
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}
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}
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HIP_RETURN(hipSuccess);
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}
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// ================================================================================================
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hipError_t hipMemPoolGetAccess(
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hipMemAccessFlags* flags,
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hipMemPool_t mem_pool,
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hipMemLocation* location) {
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HIP_INIT_API(hipMemPoolGetAccess, flags, mem_pool, location);
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if ((mem_pool == nullptr) || (location == nullptr) || (flags == nullptr)) {
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HIP_RETURN(hipErrorInvalidValue);
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}
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auto hip_mem_pool = reinterpret_cast<hip::MemoryPool*>(mem_pool);
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if (location->type == hipMemLocationTypeDevice) {
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if (location->id >= g_devices.size()) {
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HIP_RETURN(hipErrorInvalidValue);
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}
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auto device = g_devices[location->id];
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hip_mem_pool->GetAccess(device, flags);
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} else {
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HIP_RETURN(hipErrorInvalidValue);
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}
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HIP_RETURN(hipSuccess);
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}
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// ================================================================================================
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hipError_t hipMemPoolCreate(hipMemPool_t* mem_pool, const hipMemPoolProps* pool_props) {
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HIP_INIT_API(hipMemPoolCreate, mem_pool, pool_props);
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if (mem_pool == nullptr) {
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HIP_RETURN(hipErrorInvalidValue);
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}
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// validate hipMemAllocationType value
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if (pool_props->allocType != hipMemAllocationTypeInvalid &&
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pool_props->allocType != hipMemAllocationTypePinned &&
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pool_props->allocType != hipMemAllocationTypeMax) {
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HIP_RETURN(hipErrorInvalidValue);
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}
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// validate hipMemLocationType value
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if (pool_props->location.type != hipMemLocationTypeInvalid &&
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pool_props->location.type != hipMemLocationTypeDevice) {
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HIP_RETURN(hipErrorInvalidValue);
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}
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// Make sure the pool creation occurs on a valid device
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if ((pool_props->location.type != hipMemLocationTypeDevice) ||
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(pool_props->location.id >= g_devices.size())) {
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HIP_RETURN(hipErrorInvalidValue);
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}
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auto device = g_devices[pool_props->location.id];
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auto pool = new hip::MemoryPool(device);
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if (pool == nullptr) {
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HIP_RETURN(hipErrorInvalidValue);
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}
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*mem_pool = reinterpret_cast<hipMemPool_t>(pool);
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HIP_RETURN(hipSuccess);
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}
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// ================================================================================================
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hipError_t hipMemPoolDestroy(hipMemPool_t mem_pool) {
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HIP_INIT_API(hipMemPoolDestroy, mem_pool);
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if (mem_pool == nullptr) {
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HIP_RETURN(hipErrorInvalidValue);
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}
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hip::MemoryPool* hip_mem_pool = reinterpret_cast<hip::MemoryPool*>(mem_pool);
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hip_mem_pool->ReleaseFreedMemory();
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auto device = hip_mem_pool->Device();
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// Force default pool if the current one is destroyed
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if (hip_mem_pool == device->GetCurrentMemoryPool()) {
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device->SetCurrentMemoryPool(device->GetDefaultMemoryPool());
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}
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hip_mem_pool->release();
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HIP_RETURN(hipSuccess);
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}
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// ================================================================================================
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hipError_t hipMallocFromPoolAsync(
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void** dev_ptr,
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size_t size,
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hipMemPool_t mem_pool,
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hipStream_t stream) {
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HIP_INIT_API(hipMallocFromPoolAsync, dev_ptr, size, mem_pool, stream);
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if ((dev_ptr == nullptr) || (size == 0) || (mem_pool == nullptr) || (!hip::isValid(stream))) {
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HIP_RETURN(hipErrorInvalidValue);
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}
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auto hip_stream = (stream == nullptr) ? hip::getCurrentDevice()->GetNullStream() :
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reinterpret_cast<hip::Stream*>(stream);
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*dev_ptr = reinterpret_cast<hip::MemoryPool*>(mem_pool)->AllocateMemory(size, hip_stream);
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HIP_RETURN(hipSuccess);
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}
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// ================================================================================================
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hipError_t hipMemPoolExportToShareableHandle(
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void* shared_handle,
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hipMemPool_t mem_pool,
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hipMemAllocationHandleType handle_type,
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unsigned int flags) {
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HIP_INIT_API(hipMemPoolExportToShareableHandle, shared_handle, mem_pool, handle_type, flags);
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HIP_RETURN(hipSuccess);
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}
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// ================================================================================================
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hipError_t hipMemPoolImportFromShareableHandle(
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hipMemPool_t* mem_pool,
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void* shared_handle,
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hipMemAllocationHandleType handle_type,
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unsigned int flags) {
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HIP_INIT_API(hipMemPoolImportFromShareableHandle, mem_pool, shared_handle, handle_type, flags);
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HIP_RETURN(hipSuccess);
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}
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// ================================================================================================
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hipError_t hipMemPoolExportPointer(hipMemPoolPtrExportData* export_data, void* ptr) {
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HIP_INIT_API(hipMemPoolExportPointer, export_data, ptr);
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HIP_RETURN(hipSuccess);
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}
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// ================================================================================================
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hipError_t hipMemPoolImportPointer(
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void** ptr,
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hipMemPool_t mem_pool,
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hipMemPoolPtrExportData* export_data) {
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HIP_INIT_API(hipMemPoolImportPointer, ptr, mem_pool, export_data);
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HIP_RETURN(hipSuccess);
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}
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