a3bc534a5f
Change-Id: Ia27362115bbf0e96a7eac5a5ae21c2d504419bc8
668 řádky
24 KiB
C++
668 řádky
24 KiB
C++
/*
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Copyright (c) 2024 Advanced Micro Devices, Inc. All rights reserved.
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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 WARRANNTY OF ANY KIND, EXPRESS OR
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IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
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FITNNESS 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 INN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
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OUT OF OR INN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
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THE SOFTWARE.
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*/
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#include <functional>
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#include <hip_test_common.hh>
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#include <hip_test_defgroups.hh>
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#include <hip_test_checkers.hh>
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#include <memcpy3d_tests_common.hh>
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#include "numeric"
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#include "graph_tests_common.hh"
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#define XSIZE 32
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/**
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* @addtogroup hipDrvGraphAddMemcpyNode hipDrvGraphAddMemcpyNode
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* @{
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* @ingroup GraphTest
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* `hipDrvGraphAddMemcpyNode(hipGraphNode_t *pGraphNode, hipGraph_t graph, const
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* hipGraphNode_t *pDependencies, size_t numDependencies, const HIP_MEMCPY3D* copyParams, hipCtx_t
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ctx)`
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- Creates a memcpy node and adds it to a graph
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*/
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// APIs hipDrvGraphMemcpyNodeGetParams, hipDrvGraphMemcpyNodeSetParams are yet to be implemented in HIP runtime.
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#if 0
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/**
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* Test Description
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* ------------------------
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* - Negative Scenario - for API hipDrvGraphAddMemcpyNode
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* 1) Pass memcpyNode as nullptr
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* 2) Pass memcpyNode as empty structure
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* 3) Pass graph as nullptr
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* 4) Pass myparams as nullptr
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* 5) Pass context as nullptr
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* 6) When numDependencies is max & pDependencies is not valid ptr
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* 7) When pDependencies is nullptr, but numDependencies is non-zero
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* 8) API expects atleast one memcpy Source pointer to be set
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* 9) API expects atleast one memcpy Destination pointer to be set
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* 10) Passing different element size for srcArray and dstArray
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* Test source
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* ------------------------
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* - unit/graph/hipDrvGraphAddMemcpyNode.cc
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* Test requirements
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* ------------------------
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* - HIP_VERSION >= 6.1
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*/
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#if HT_AMD
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TEST_CASE("Unit_hipDrvGraphAddMemcpyNode_Negative") {
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CHECK_IMAGE_SUPPORT
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constexpr size_t size = 1024;
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size_t numW = size * sizeof(int);
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// Host Vectors
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std::vector<int> A_h(numW);
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std::vector<int> B_h(numW);
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hipCtx_t context;
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// Initialization
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std::iota(A_h.begin(), A_h.end(), 0);
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std::fill_n(B_h.begin(), size, 0);
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hipError_t ret;
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hipGraph_t graph;
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hipStream_t streamForGraph;
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hipGraphNode_t memcpyNode;
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HIP_CHECK(hipGraphCreate(&graph, 0));
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HIP_CHECK(hipStreamCreate(&streamForGraph));
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HIP_CHECK(hipCtxCreate(&context, 0, 0));
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HIP_MEMCPY3D myparams{};
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memset(&myparams, 0x0, sizeof(HIP_MEMCPY3D));
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myparams.srcXInBytes = 0;
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myparams.srcY = 0;
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myparams.srcZ = 0;
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myparams.dstXInBytes = 0;
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myparams.dstY = 0;
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myparams.dstZ = 0;
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myparams.WidthInBytes = numW;
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myparams.Height = 1;
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myparams.Depth = 1;
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myparams.srcMemoryType = hipMemoryTypeHost;
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myparams.dstMemoryType = hipMemoryTypeHost;
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myparams.srcHost = A_h.data();
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myparams.srcPitch = numW;
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myparams.srcHeight = 1;
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myparams.dstHost = B_h.data();
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myparams.dstPitch = numW;
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myparams.dstHeight = 1;
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SECTION("Pass memcpyNode as nullptr") {
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ret = hipDrvGraphAddMemcpyNode(nullptr, graph, nullptr,
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0, &myparams, context);
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REQUIRE(hipErrorInvalidValue == ret);
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}
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SECTION("Pass memcpyNode as empty structure") {
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hipGraphNode_t memcpyNode_t = {};
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ret = hipDrvGraphAddMemcpyNode(&memcpyNode_t, graph, nullptr,
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0, &myparams, context);
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REQUIRE(hipSuccess == ret);
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}
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SECTION("Pass graph as nullptr") {
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ret = hipDrvGraphAddMemcpyNode(&memcpyNode, nullptr, nullptr,
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0, &myparams, context);
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REQUIRE(hipErrorInvalidValue == ret);
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}
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SECTION("Pass myparams as nullptr") {
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ret = hipDrvGraphAddMemcpyNode(&memcpyNode, graph, nullptr,
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0, nullptr, context);
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REQUIRE(hipErrorInvalidValue == ret);
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}
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SECTION("Pass context as nullptr") {
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ret = hipDrvGraphAddMemcpyNode(&memcpyNode, graph, nullptr,
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0, &myparams, nullptr);
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REQUIRE(hipErrorInvalidValue == ret);
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}
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SECTION("When numDependencies is max & pDependencies is not valid ptr") {
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ret = hipDrvGraphAddMemcpyNode(&memcpyNode, graph, nullptr,
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INT_MAX, &myparams, context);
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REQUIRE(hipErrorInvalidValue == ret);
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}
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SECTION("When pDependencies is nullptr, but numDependencies is non-zero") {
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ret = hipDrvGraphAddMemcpyNode(&memcpyNode, graph, nullptr,
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2, &myparams, context);
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REQUIRE(hipErrorInvalidValue == ret);
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}
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SECTION("API expects atleast one memcpy src pointer to be set") {
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memset(&myparams, 0x0, sizeof(HIP_MEMCPY3D));
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myparams.srcXInBytes = 0;
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myparams.srcY = 0;
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myparams.srcZ = 0;
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myparams.dstXInBytes = 0;
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myparams.dstY = 0;
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myparams.dstZ = 0;
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myparams.WidthInBytes = numW;
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myparams.Height = 1;
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myparams.Depth = 1;
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myparams.srcMemoryType = hipMemoryTypeHost;
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myparams.dstMemoryType = hipMemoryTypeHost;
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myparams.srcPitch = numW;
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myparams.srcHeight = 1;
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myparams.dstHost = B_h.data();
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myparams.dstPitch = numW;
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myparams.dstHeight = 1;
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ret = hipDrvGraphAddMemcpyNode(&memcpyNode, graph, nullptr,
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0, &myparams, context);
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REQUIRE(hipErrorInvalidValue == ret);
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}
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SECTION("API expects atleast one memcpy dst pointer to be set") {
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memset(&myparams, 0x0, sizeof(HIP_MEMCPY3D));
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myparams.srcXInBytes = 0;
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myparams.srcY = 0;
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myparams.srcZ = 0;
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myparams.dstXInBytes = 0;
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myparams.dstY = 0;
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myparams.dstZ = 0;
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myparams.WidthInBytes = numW;
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myparams.Height = 1;
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myparams.Depth = 1;
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myparams.srcMemoryType = hipMemoryTypeHost;
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myparams.dstMemoryType = hipMemoryTypeHost;
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myparams.srcHost = A_h.data();
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myparams.srcPitch = numW;
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myparams.srcHeight = 1;
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myparams.dstPitch = numW;
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myparams.dstHeight = 1;
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ret = hipDrvGraphAddMemcpyNode(&memcpyNode, graph, nullptr,
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0, &myparams, context);
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REQUIRE(hipErrorInvalidValue == ret);
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}
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SECTION("Pass source memory type as hipMemoryTypeHost and set srcDevice") {
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memset(&myparams, 0x0, sizeof(HIP_MEMCPY3D));
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myparams.srcXInBytes = 0;
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myparams.srcY = 0;
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myparams.srcZ = 0;
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myparams.dstXInBytes = 0;
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myparams.dstY = 0;
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myparams.dstZ = 0;
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myparams.WidthInBytes = numW;
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myparams.Height = 1;
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myparams.Depth = 1;
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myparams.srcMemoryType = hipMemoryTypeHost;
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myparams.dstMemoryType = hipMemoryTypeHost;
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myparams.srcDevice = hipDeviceptr_t(A_h.data());
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myparams.dstHost = B_h.data();
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myparams.srcPitch = numW;
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myparams.srcHeight = 1;
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myparams.dstPitch = numW;
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myparams.dstHeight = 1;
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ret = hipDrvGraphAddMemcpyNode(&memcpyNode, graph, nullptr,
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0, &myparams, context);
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REQUIRE(hipErrorInvalidValue == ret);
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}
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SECTION("Pass dest memory type as hipMemoryTypeHost and set dstDevice") {
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memset(&myparams, 0x0, sizeof(HIP_MEMCPY3D));
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myparams.srcXInBytes = 0;
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myparams.srcY = 0;
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myparams.srcZ = 0;
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myparams.dstXInBytes = 0;
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myparams.dstY = 0;
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myparams.dstZ = 0;
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myparams.WidthInBytes = numW;
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myparams.Height = 1;
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myparams.Depth = 1;
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myparams.srcMemoryType = hipMemoryTypeHost;
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myparams.dstMemoryType = hipMemoryTypeHost;
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myparams.srcHost = A_h.data();
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myparams.dstDevice = hipDeviceptr_t(B_h.data());
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myparams.srcPitch = numW;
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myparams.srcHeight = 1;
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myparams.dstPitch = numW;
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myparams.dstHeight = 1;
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ret = hipDrvGraphAddMemcpyNode(&memcpyNode, graph, nullptr,
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0, &myparams, context);
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REQUIRE(hipErrorInvalidValue == ret);
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}
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SECTION("Passing different element size for HIP_MEMCPY3D::srcArray"
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"and HIP_MEMCPY3D::dstArray") {
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memset(&myparams, 0x0, sizeof(HIP_MEMCPY3D));
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myparams.srcXInBytes = 0;
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myparams.srcY = 0;
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myparams.srcZ = 0;
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myparams.dstXInBytes = 0;
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myparams.dstY = 0;
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myparams.dstZ = 0;
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myparams.WidthInBytes = numW;
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myparams.Height = 1;
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myparams.Depth = 1;
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myparams.srcMemoryType = hipMemoryTypeHost;
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myparams.srcHost = A_h.data();
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myparams.srcDevice = hipDeviceptr_t(A_h.data());
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myparams.srcPitch = numW * sizeof(int);
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myparams.srcHeight = 1;
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myparams.dstMemoryType = hipMemoryTypeArray;
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hipChannelFormatDesc channelDesc = hipCreateChannelDesc(sizeof(int) * 8,
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0, 0, 0, hipChannelFormatKindSigned);
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hipArray *devArray1, *devArray2;
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HIP_CHECK(hipMalloc3DArray(&devArray1, &channelDesc,
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make_hipExtent(10, 10, 10), hipArrayDefault));
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HIP_CHECK(hipMalloc3DArray(&devArray2, &channelDesc,
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make_hipExtent(11, 11, 11), hipArrayDefault));
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myparams.srcArray = devArray1;
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myparams.dstArray = devArray2;
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ret = hipDrvGraphAddMemcpyNode(&memcpyNode, graph, nullptr,
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0, &myparams, context);
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REQUIRE(hipErrorInvalidValue == ret);
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HIP_CHECK(hipFreeArray(devArray1));
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HIP_CHECK(hipFreeArray(devArray2));
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}
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HIP_CHECK(hipGraphDestroy(graph));
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HIP_CHECK(hipStreamDestroy(streamForGraph));
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}
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/*
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* Create two host pointers, copy the data between them by the api
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* hipDrvGraphAddMemcpyNode with data transfer kind hipMemcpyHostToHost.
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* Validate the output.
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*/
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static void hipDrvGraphAddMemcpyNode_test(int deviceid = 0) {
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HIP_CHECK(hipSetDevice(deviceid));
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constexpr size_t size = 1024;
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size_t numW = size * sizeof(int);
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// Host Vectors
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std::vector<int> A_h(numW);
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std::vector<int> B_h(numW);
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hipCtx_t context;
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// Initialization
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std::iota(A_h.begin(), A_h.end(), 0);
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std::fill_n(B_h.begin(), size, 0);
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hipGraph_t graph;
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hipStream_t streamForGraph;
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hipGraphExec_t graphExec;
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hipGraphNode_t memcpyH2H;
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HIP_CHECK(hipGraphCreate(&graph, 0));
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HIP_CHECK(hipStreamCreate(&streamForGraph));
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HIP_CHECK(hipCtxCreate(&context, 0, deviceid));
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HIP_MEMCPY3D myparams{};
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memset(&myparams, 0x0, sizeof(HIP_MEMCPY3D));
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myparams.srcXInBytes = 0;
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myparams.srcY = 0;
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myparams.srcZ = 0;
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myparams.dstXInBytes = 0;
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myparams.dstY = 0;
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myparams.dstZ = 0;
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myparams.WidthInBytes = numW;
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myparams.Height = 1;
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myparams.Depth = 1;
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myparams.srcMemoryType = hipMemoryTypeHost;
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myparams.dstMemoryType = hipMemoryTypeHost;
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myparams.srcHost = A_h.data();
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myparams.srcPitch = numW;
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myparams.srcHeight = 1;
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myparams.dstHost = B_h.data();
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myparams.dstPitch = numW;
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myparams.dstHeight = 1;
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// Host to Host
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HIP_CHECK(hipDrvGraphAddMemcpyNode(&memcpyH2H, graph, nullptr,
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0, &myparams, context));
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// Instantiate and launch the graph
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HIP_CHECK(hipGraphInstantiate(&graphExec, graph, nullptr, nullptr, 0));
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HIP_CHECK(hipGraphLaunch(graphExec, streamForGraph));
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HIP_CHECK(hipStreamSynchronize(streamForGraph));
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HIP_CHECK(hipGraphExecDestroy(graphExec));
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HIP_CHECK(hipGraphDestroy(graph));
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HIP_CHECK(hipStreamDestroy(streamForGraph));
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// Validation
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REQUIRE(memcmp(A_h.data(), B_h.data(), numW) == 0);
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}
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/**
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* Test Description
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* ------------------------
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* - Functional Scenario -
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* 1) Create two host pointers, copy the data between them by the api
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* hipDrvGraphAddMemcpyNode with data transfer kind hipMemcpyHostToHost.
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* Validate the output.
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* Test source
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* ------------------------
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* - unit/graph/hipDrvGraphAddMemcpyNode.cc
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* Test requirements
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* ------------------------
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* - HIP_VERSION >= 6.1
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*/
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TEST_CASE("Unit_hipDrvGraphAddMemcpyNode_test") {
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CHECK_IMAGE_SUPPORT
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hipDrvGraphAddMemcpyNode_test();
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}
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/**
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* Test Description
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* ------------------------
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* - Functional Scenario - for Multiple device case
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* 1) Create two host pointers, copy the data between them by the api
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* hipDrvGraphAddMemcpyNode with data transfer kind hipMemcpyHostToHost.
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* Validate the output.
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* Test source
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* ------------------------
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* - unit/graph/hipDrvGraphAddMemcpyNode.cc
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* Test requirements
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* ------------------------
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* - HIP_VERSION >= 6.1
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*/
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TEST_CASE("Unit_hipDrvGraphAddMemcpyNode_MulitDevice") {
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CHECK_IMAGE_SUPPORT
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int numDevices = 0;
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HIP_CHECK(hipGetDeviceCount(&numDevices));
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if (numDevices > 1) {
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for (int device=0; device < numDevices; device++) {
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hipDrvGraphAddMemcpyNode_test(device);
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}
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} else {
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SUCCEED("skipped the testcase as no of devices is less than 2");
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}
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}
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#endif
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/**
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* Test Description
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* ------------------------
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* - Verify basic API behavior. A Memcpy node is created with parameters set according to the
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* test run, after which the graph is run and the memcpy results are verified.
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* The test is run for all possible memcpy directions, with both the corresponding memcpy
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* kind and hipMemcpyDefault, as well as half page and full page allocation sizes.
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* Test source
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* ------------------------
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* - unit/graph/hipDrvGraphAddMemcpyNode.cc
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* Test requirements
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* ------------------------
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* - HIP_VERSION >= 6.0
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*/
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TEST_CASE("Unit_hipDrvGraphAddMemcpyNode_Positive_Basic") {
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using namespace std::placeholders;
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constexpr bool async = false;
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HIP_CHECK(hipInit(0));
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hipDevice_t device;
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hipCtx_t context;
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HIP_CHECK(hipDeviceGet(&device, 0));
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HIP_CHECK(hipCtxCreate(&context, 0, device));
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SECTION("Device to host") {
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Memcpy3DDeviceToHostShell<async>(
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std::bind(DrvMemcpy3DGraphWrapper<>, _1, _2, _3, _4, _5, _6, context, _7));
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}
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SECTION("Host to device") {
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Memcpy3DHostToDeviceShell<async>(
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std::bind(DrvMemcpy3DGraphWrapper<>, _1, _2, _3, _4, _5, _6, context, _7));
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}
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SECTION("Host to host") {
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Memcpy3DHostToHostShell<async>(
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std::bind(DrvMemcpy3DGraphWrapper<>, _1, _2, _3, _4, _5, _6, context, _7));
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}
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SECTION("Device to device") {
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SECTION("Peer access enabled") {
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Memcpy3DDeviceToDeviceShell<async, true>(
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std::bind(DrvMemcpy3DGraphWrapper<>, _1, _2, _3, _4, _5, _6, context, _7));
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}
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SECTION("Peer access disabled") {
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Memcpy3DDeviceToDeviceShell<async, false>(
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std::bind(DrvMemcpy3DGraphWrapper<>, _1, _2, _3, _4, _5, _6, context, _7));
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}
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}
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HIP_CHECK(hipCtxPopCurrent(&context));
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HIP_CHECK(hipCtxDestroy(context));
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}
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TEST_CASE("Unit_hipDrvGraphAddMemcpyNode_Positive_Array") {
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CHECK_IMAGE_SUPPORT
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using namespace std::placeholders;
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constexpr bool async = false;
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HIP_CHECK(hipInit(0));
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hipDevice_t device;
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hipCtx_t context;
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HIP_CHECK(hipDeviceGet(&device, 0));
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HIP_CHECK(hipCtxCreate(&context, 0, device));
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SECTION("Array from/to Host") {
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DrvMemcpy3DArrayHostShell<async>(
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std::bind(DrvMemcpy3DGraphWrapper<>, _1, _2, _3, _4, _5, _6, context, _7));
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}
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SECTION("Array from/to Device") {
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DrvMemcpy3DArrayDeviceShell<async>(
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std::bind(DrvMemcpy3DGraphWrapper<>, _1, _2, _3, _4, _5, _6, context, _7));
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}
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HIP_CHECK(hipCtxPopCurrent(&context));
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HIP_CHECK(hipCtxDestroy(context));
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}
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#endif // if 0
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/**
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* Test Description
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* ------------------------
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* - Verify API behaviour with invalid arguments:
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* -# node is nullptr
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* -# graph is nullptr
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* -# pDependencies is nullptr when numDependencies is not zero
|
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* -# A node in pDependencies originates from a different graph
|
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* -# numDependencies is invalid
|
|
* -# A node is duplicated in pDependencies
|
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* -# dst is nullptr
|
|
* -# src is nullptr
|
|
* -# dstPitch < width
|
|
* -# srcPitch < width
|
|
* -# dstPitch > max pitch
|
|
* -# srcPitch > max pitch
|
|
* -# WidthInBytes + dstXInBytes > dstPitch
|
|
* -# WidthInBytes + srcXInBytes > srcPitch
|
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* -# dstY out of bounds
|
|
* -# srcY out of bounds
|
|
* -# dstZ out of bounds
|
|
* -# srcZ out of bounds
|
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* Test source
|
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* ------------------------
|
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* - unit/graph/hipDrvGraphAddMemcpyNode.cc
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* Test requirements
|
|
* ------------------------
|
|
* - HIP_VERSION >= 6.0
|
|
*/
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TEST_CASE("Unit_hipDrvGraphAddMemcpyNode_Negative_Parameters") {
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using namespace std::placeholders;
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|
|
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HIP_CHECK(hipInit(0));
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hipDevice_t device;
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|
hipCtx_t context;
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HIP_CHECK(hipDeviceGet(&device, 0));
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HIP_CHECK(hipCtxCreate(&context, 0, device));
|
|
|
|
constexpr hipExtent extent{128 * sizeof(int), 128, 8};
|
|
|
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constexpr auto NegativeTests = [](hipPitchedPtr dst_ptr, hipPos dst_pos, hipPitchedPtr src_ptr,
|
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hipPos src_pos, hipExtent extent, hipMemcpyKind kind,
|
|
hipCtx_t context) {
|
|
hipGraph_t graph = nullptr;
|
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HIP_CHECK(hipGraphCreate(&graph, 0));
|
|
hipGraphNode_t node = nullptr;
|
|
|
|
auto params = GetDrvMemcpy3DParms(dst_ptr, dst_pos, src_ptr, src_pos, extent, kind);
|
|
GraphAddNodeCommonNegativeTests(
|
|
std::bind(hipDrvGraphAddMemcpyNode, _1, _2, _3, _4, ¶ms, context), graph);
|
|
|
|
SECTION("dst_ptr.ptr == nullptr") {
|
|
hipPitchedPtr invalid_ptr = dst_ptr;
|
|
invalid_ptr.ptr = nullptr;
|
|
auto params = GetDrvMemcpy3DParms(invalid_ptr, dst_pos, src_ptr, src_pos, extent, kind);
|
|
HIP_CHECK_ERROR(hipDrvGraphAddMemcpyNode(&node, graph, nullptr, 0, ¶ms, context),
|
|
hipErrorInvalidValue);
|
|
}
|
|
|
|
SECTION("src_ptr.ptr == nullptr") {
|
|
hipPitchedPtr invalid_ptr = src_ptr;
|
|
invalid_ptr.ptr = nullptr;
|
|
auto params = GetDrvMemcpy3DParms(dst_ptr, dst_pos, invalid_ptr, src_pos, extent, kind);
|
|
HIP_CHECK_ERROR(hipDrvGraphAddMemcpyNode(&node, graph, nullptr, 0, ¶ms, context),
|
|
hipErrorInvalidValue);
|
|
}
|
|
|
|
SECTION("dstPitch < width") {
|
|
hipPitchedPtr invalid_ptr = dst_ptr;
|
|
invalid_ptr.pitch = extent.width - 1;
|
|
auto params = GetDrvMemcpy3DParms(invalid_ptr, dst_pos, src_ptr, src_pos, extent, kind);
|
|
HIP_CHECK_ERROR(hipDrvGraphAddMemcpyNode(&node, graph, nullptr, 0, ¶ms, context),
|
|
hipErrorInvalidValue);
|
|
}
|
|
|
|
SECTION("srcPitch < width") {
|
|
hipPitchedPtr invalid_ptr = src_ptr;
|
|
invalid_ptr.pitch = extent.width - 1;
|
|
auto params = GetDrvMemcpy3DParms(dst_ptr, dst_pos, invalid_ptr, src_pos, extent, kind);
|
|
HIP_CHECK_ERROR(hipDrvGraphAddMemcpyNode(&node, graph, nullptr, 0, ¶ms, context),
|
|
hipErrorInvalidValue);
|
|
}
|
|
|
|
SECTION("dstPitch > max pitch") {
|
|
int attr = 0;
|
|
HIP_CHECK(hipDeviceGetAttribute(&attr, hipDeviceAttributeMaxPitch, 0));
|
|
hipPitchedPtr invalid_ptr = dst_ptr;
|
|
invalid_ptr.pitch = attr;
|
|
auto params = GetDrvMemcpy3DParms(invalid_ptr, dst_pos, src_ptr, src_pos, extent, kind);
|
|
HIP_CHECK_ERROR(hipDrvGraphAddMemcpyNode(&node, graph, nullptr, 0, ¶ms, context),
|
|
hipErrorInvalidValue);
|
|
}
|
|
|
|
SECTION("srcPitch > max pitch") {
|
|
int attr = 0;
|
|
HIP_CHECK(hipDeviceGetAttribute(&attr, hipDeviceAttributeMaxPitch, 0));
|
|
hipPitchedPtr invalid_ptr = src_ptr;
|
|
invalid_ptr.pitch = attr;
|
|
auto params = GetDrvMemcpy3DParms(dst_ptr, dst_pos, invalid_ptr, src_pos, extent, kind);
|
|
HIP_CHECK_ERROR(hipDrvGraphAddMemcpyNode(&node, graph, nullptr, 0, ¶ms, context),
|
|
hipErrorInvalidValue);
|
|
}
|
|
|
|
SECTION("WidthInBytes + dstXInBytes > dstPitch") {
|
|
hipPos invalid_pos = dst_pos;
|
|
invalid_pos.x = dst_ptr.pitch - extent.width + 1;
|
|
auto params = GetDrvMemcpy3DParms(dst_ptr, invalid_pos, src_ptr, src_pos, extent, kind);
|
|
HIP_CHECK_ERROR(hipDrvGraphAddMemcpyNode(&node, graph, nullptr, 0, ¶ms, context),
|
|
hipErrorInvalidValue);
|
|
}
|
|
|
|
SECTION("WidthInBytes + srcXInBytes > srcPitch") {
|
|
hipPos invalid_pos = src_pos;
|
|
invalid_pos.x = src_ptr.pitch - extent.width + 1;
|
|
auto params = GetDrvMemcpy3DParms(dst_ptr, dst_pos, src_ptr, invalid_pos, extent, kind);
|
|
HIP_CHECK_ERROR(hipDrvGraphAddMemcpyNode(&node, graph, nullptr, 0, ¶ms, context),
|
|
hipErrorInvalidValue);
|
|
}
|
|
|
|
SECTION("dstY out of bounds") {
|
|
hipPos invalid_pos = dst_pos;
|
|
invalid_pos.y = 1;
|
|
auto params = GetDrvMemcpy3DParms(dst_ptr, invalid_pos, src_ptr, src_pos, extent, kind);
|
|
HIP_CHECK_ERROR(hipDrvGraphAddMemcpyNode(&node, graph, nullptr, 0, ¶ms, context),
|
|
hipErrorInvalidValue);
|
|
}
|
|
|
|
SECTION("srcY out of bounds") {
|
|
hipPos invalid_pos = src_pos;
|
|
invalid_pos.y = 1;
|
|
auto params = GetDrvMemcpy3DParms(dst_ptr, dst_pos, src_ptr, invalid_pos, extent, kind);
|
|
HIP_CHECK_ERROR(hipDrvGraphAddMemcpyNode(&node, graph, nullptr, 0, ¶ms, context),
|
|
hipErrorInvalidValue);
|
|
}
|
|
|
|
SECTION("dstZ out of bounds") {
|
|
hipPos invalid_pos = dst_pos;
|
|
invalid_pos.z = 1;
|
|
auto params = GetDrvMemcpy3DParms(dst_ptr, invalid_pos, src_ptr, src_pos, extent, kind);
|
|
HIP_CHECK_ERROR(hipDrvGraphAddMemcpyNode(&node, graph, nullptr, 0, ¶ms, context),
|
|
hipErrorInvalidValue);
|
|
}
|
|
|
|
SECTION("srcZ out of bounds") {
|
|
hipPos invalid_pos = src_pos;
|
|
invalid_pos.z = 1;
|
|
auto params = GetDrvMemcpy3DParms(dst_ptr, dst_pos, src_ptr, invalid_pos, extent, kind);
|
|
HIP_CHECK_ERROR(hipDrvGraphAddMemcpyNode(&node, graph, nullptr, 0, ¶ms, context),
|
|
hipErrorInvalidValue);
|
|
}
|
|
|
|
HIP_CHECK(hipGraphDestroy(graph));
|
|
};
|
|
|
|
SECTION("Host to Device") {
|
|
LinearAllocGuard3D<int> device_alloc(extent);
|
|
LinearAllocGuard<int> host_alloc(
|
|
LinearAllocs::hipHostMalloc,
|
|
device_alloc.pitch() * device_alloc.height() * device_alloc.depth());
|
|
NegativeTests(device_alloc.pitched_ptr(), make_hipPos(0, 0, 0),
|
|
make_hipPitchedPtr(host_alloc.ptr(), device_alloc.pitch(), device_alloc.width(),
|
|
device_alloc.height()),
|
|
make_hipPos(0, 0, 0), extent, hipMemcpyHostToDevice, context);
|
|
}
|
|
|
|
SECTION("Device to Host") {
|
|
LinearAllocGuard3D<int> device_alloc(extent);
|
|
LinearAllocGuard<int> host_alloc(
|
|
LinearAllocs::hipHostMalloc,
|
|
device_alloc.pitch() * device_alloc.height() * device_alloc.depth());
|
|
NegativeTests(make_hipPitchedPtr(host_alloc.ptr(), device_alloc.pitch(), device_alloc.width(),
|
|
device_alloc.height()),
|
|
make_hipPos(0, 0, 0), device_alloc.pitched_ptr(), make_hipPos(0, 0, 0), extent,
|
|
hipMemcpyDeviceToHost, context);
|
|
}
|
|
|
|
SECTION("Host to Host") {
|
|
LinearAllocGuard<int> src_alloc(LinearAllocs::hipHostMalloc,
|
|
extent.width * extent.height * extent.depth);
|
|
LinearAllocGuard<int> dst_alloc(LinearAllocs::hipHostMalloc,
|
|
extent.width * extent.height * extent.depth);
|
|
NegativeTests(make_hipPitchedPtr(dst_alloc.ptr(), extent.width, extent.width, extent.height),
|
|
make_hipPos(0, 0, 0),
|
|
make_hipPitchedPtr(src_alloc.ptr(), extent.width, extent.width, extent.height),
|
|
make_hipPos(0, 0, 0), extent, hipMemcpyHostToHost, context);
|
|
}
|
|
|
|
SECTION("Device to Device") {
|
|
LinearAllocGuard3D<int> src_alloc(extent);
|
|
LinearAllocGuard3D<int> dst_alloc(extent);
|
|
NegativeTests(dst_alloc.pitched_ptr(), make_hipPos(0, 0, 0), src_alloc.pitched_ptr(),
|
|
make_hipPos(0, 0, 0), extent, hipMemcpyDeviceToDevice, context);
|
|
}
|
|
|
|
HIP_CHECK(hipCtxPopCurrent(&context));
|
|
HIP_CHECK(hipCtxDestroy(context));
|
|
}
|
|
|
|
/**
|
|
* End doxygen group GraphTest.
|
|
* @}
|
|
*/
|