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# SPDX-FileCopyrightText: Copyright (c) 2021-2025 NVIDIA CORPORATION & AFFILIATES. All rights reserved.
# SPDX-License-Identifier: LicenseRef-NVIDIA-SOFTWARE-LICENSE
import numpy as np
import pytest
import cuda.bindings.driver as cuda
import cuda.bindings.runtime as cudart
from cuda.bindings._test_helpers.mempool import xfail_if_mempool_oom
def supportsMemoryPool():
err, isSupported = cudart.cudaDeviceGetAttribute(cudart.cudaDeviceAttr.cudaDevAttrMemoryPoolsSupported, 0)
return err == cudart.cudaError_t.cudaSuccess and isSupported
def test_interop_stream():
# DRV to RT
err_dr, stream = cuda.cuStreamCreate(0)
assert err_dr == cuda.CUresult.CUDA_SUCCESS
(err_rt,) = cudart.cudaStreamDestroy(stream)
assert err_rt == cudart.cudaError_t.cudaSuccess
# RT to DRV
err_rt, stream = cudart.cudaStreamCreate()
assert err_rt == cudart.cudaError_t.cudaSuccess
(err_dr,) = cuda.cuStreamDestroy(stream)
assert err_dr == cuda.CUresult.CUDA_SUCCESS
def test_interop_event():
# DRV to RT
err_dr, event = cuda.cuEventCreate(0)
assert err_dr == cuda.CUresult.CUDA_SUCCESS
(err_rt,) = cudart.cudaEventDestroy(event)
assert err_rt == cudart.cudaError_t.cudaSuccess
# RT to DRV
err_rt, event = cudart.cudaEventCreate()
assert err_rt == cudart.cudaError_t.cudaSuccess
(err_dr,) = cuda.cuEventDestroy(event)
assert err_dr == cuda.CUresult.CUDA_SUCCESS
def test_interop_graph():
# DRV to RT
err_dr, graph = cuda.cuGraphCreate(0)
assert err_dr == cuda.CUresult.CUDA_SUCCESS
(err_rt,) = cudart.cudaGraphDestroy(graph)
assert err_rt == cudart.cudaError_t.cudaSuccess
# RT to DRV
err_rt, graph = cudart.cudaGraphCreate(0)
assert err_rt == cudart.cudaError_t.cudaSuccess
(err_dr,) = cuda.cuGraphDestroy(graph)
assert err_dr == cuda.CUresult.CUDA_SUCCESS
def test_interop_graphNode():
err_dr, graph = cuda.cuGraphCreate(0)
assert err_dr == cuda.CUresult.CUDA_SUCCESS
# DRV to RT
err_dr, node = cuda.cuGraphAddEmptyNode(graph, [], 0)
assert err_dr == cuda.CUresult.CUDA_SUCCESS
(err_rt,) = cudart.cudaGraphDestroyNode(node)
assert err_rt == cudart.cudaError_t.cudaSuccess
# RT to DRV
err_rt, node = cudart.cudaGraphAddEmptyNode(graph, [], 0)
assert err_rt == cudart.cudaError_t.cudaSuccess
(err_dr,) = cuda.cuGraphDestroyNode(node)
assert err_dr == cuda.CUresult.CUDA_SUCCESS
(err_rt,) = cudart.cudaGraphDestroy(graph)
assert err_rt == cudart.cudaError_t.cudaSuccess
# cudaUserObject_t
# TODO
# cudaFunction_t
# TODO
@pytest.mark.skipif(not supportsMemoryPool(), reason="Requires mempool operations")
def test_interop_memPool():
# DRV to RT
err_dr, pool = cuda.cuDeviceGetDefaultMemPool(0)
xfail_if_mempool_oom(err_dr, "cuDeviceGetDefaultMemPool", 0)
assert err_dr == cuda.CUresult.CUDA_SUCCESS
(err_rt,) = cudart.cudaDeviceSetMemPool(0, pool)
assert err_rt == cudart.cudaError_t.cudaSuccess
# RT to DRV
err_rt, pool = cudart.cudaDeviceGetDefaultMemPool(0)
xfail_if_mempool_oom(err_rt, "cudaDeviceGetDefaultMemPool", 0)
assert err_rt == cudart.cudaError_t.cudaSuccess
(err_dr,) = cuda.cuDeviceSetMemPool(0, pool)
assert err_dr == cuda.CUresult.CUDA_SUCCESS
def test_interop_graphExec():
err_dr, graph = cuda.cuGraphCreate(0)
assert err_dr == cuda.CUresult.CUDA_SUCCESS
err_dr, node = cuda.cuGraphAddEmptyNode(graph, [], 0)
assert err_dr == cuda.CUresult.CUDA_SUCCESS
# DRV to RT
err_dr, graphExec = cuda.cuGraphInstantiate(graph, 0)
assert err_dr == cuda.CUresult.CUDA_SUCCESS
(err_rt,) = cudart.cudaGraphExecDestroy(graphExec)
assert err_rt == cudart.cudaError_t.cudaSuccess
# RT to DRV
err_rt, graphExec = cudart.cudaGraphInstantiate(graph, 0)
assert err_rt == cudart.cudaError_t.cudaSuccess
(err_dr,) = cuda.cuGraphExecDestroy(graphExec)
assert err_dr == cuda.CUresult.CUDA_SUCCESS
(err_rt,) = cudart.cudaGraphDestroy(graph)
assert err_rt == cudart.cudaError_t.cudaSuccess
def test_interop_deviceptr():
# Allocate dev memory
size = 1024 * np.uint8().itemsize
err_dr, dptr = cuda.cuMemAlloc(size)
assert err_dr == cuda.CUresult.CUDA_SUCCESS
# Allocate host memory
h1 = np.full(size, 1).astype(np.uint8)
h2 = np.full(size, 2).astype(np.uint8)
assert np.array_equal(h1, h2) is False
# Initialize device memory
(err_rt,) = cudart.cudaMemset(dptr, 1, size)
assert err_rt == cudart.cudaError_t.cudaSuccess
# D to h2
(err_rt,) = cudart.cudaMemcpy(h2, dptr, size, cudart.cudaMemcpyKind.cudaMemcpyDeviceToHost)
assert err_rt == cudart.cudaError_t.cudaSuccess
# Validate h1 == h2
assert np.array_equal(h1, h2)
# Cleanup
(err_dr,) = cuda.cuMemFree(dptr)
assert err_dr == cuda.CUresult.CUDA_SUCCESS