SWDEV-292393 - [catch2][dtest] hipMemcpyAtoH and hipMemcpyHtoA APIs to catch2
Migrated functional and negative scenarios of
hipMemcpyAtoH and
hipMemcpyHtoA APIs to catch2 framework
Change-Id: I68bb37d99fc371b8803e64ebf1533c0870b14fab
[ROCm/hip commit: bdc90769fb]
Этот коммит содержится в:
@@ -14,6 +14,8 @@ set(TEST_SRC
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hipMemcpy2DAsync.cc
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hipMemcpy2DFromArray.cc
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hipMemcpy2DFromArrayAsync.cc
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hipMemcpyAtoH.cc
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hipMemcpyHtoA.cc
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)
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# Create shared lib of all tests
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@@ -0,0 +1,219 @@
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/*
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Copyright (c) 2021 - present 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
|
||||
to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
|
||||
copies of the Software, and to permit persons to whom the Software is
|
||||
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
|
||||
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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*/
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/*
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* Test Scenarios:
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* 1. Perform host and Pinned host Memory
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* 2. Perform bytecount 0 validation for hipMemcpyAtoH API
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* 3. Allocate Memory from one GPU device and call hipMemcpyAtoH from Peer
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* GPU device
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* 4. Perform hipMemcpyAtoH Negative Scenarios
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*/
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#include <hip_test_common.hh>
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#include <hip_test_checkers.hh>
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static constexpr auto NUM_W{10};
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static constexpr auto NUM_H{1};
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static constexpr auto copy_bytes{2};
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/*
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This testcase performs the basic and pinned host memory scenarios
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of hipMemcpyAtoH API
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Input: "A_d" initialized with "hData" Pi value
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Output:"B_h" host variable output of hipMemcpyAtoH API
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is then validated with "hData"
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The same scenario is then verified with pinned host memory
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*/
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TEMPLATE_TEST_CASE("Unit_hipMemcpyAtoH_Basic", "[hipMemcpyAtoH]",
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char, int, float) {
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HIP_CHECK(hipSetDevice(0));
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// 1 refers to pinned host memory scenario
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auto memtype_check = GENERATE(0, 1);
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hipArray *A_d;
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TestType *hData{nullptr}, *B_h{nullptr};
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size_t width{NUM_W * sizeof(TestType)};
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// Initialization of data
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if (memtype_check) {
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HipTest::initArrays<TestType>(nullptr, nullptr, nullptr,
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&hData, &B_h, nullptr, NUM_W, true);
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} else {
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HipTest::initArrays<TestType>(nullptr, nullptr, nullptr,
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&hData, &B_h, nullptr, NUM_W);
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}
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HipTest::setDefaultData<TestType>(NUM_W, hData, B_h, nullptr);
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hipChannelFormatDesc desc = hipCreateChannelDesc<TestType>();
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HIP_CHECK(hipMallocArray(&A_d, &desc, NUM_W, NUM_H, hipArrayDefault));
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HIP_CHECK(hipMemcpy2DToArray(A_d, 0, 0, hData, width,
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width, NUM_H, hipMemcpyHostToDevice));
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// Performing API call
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REQUIRE(hipMemcpyAtoH(B_h, A_d, 0, copy_bytes*sizeof(TestType))
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== hipSuccess);
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// Validating the result
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REQUIRE(HipTest::checkArray(B_h, hData, copy_bytes, NUM_H) == true);
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// DeAllocating the memory
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HIP_CHECK(hipFreeArray(A_d));
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if (memtype_check) {
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REQUIRE(HipTest::freeArrays<TestType>(nullptr, nullptr, nullptr, hData, B_h,
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nullptr, true) == true);
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} else {
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REQUIRE(HipTest::freeArrays<TestType>(nullptr, nullptr, nullptr, hData, B_h,
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nullptr, false) == true);
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}
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}
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/*
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This testcase performs the basic and pinned host memory scenarios
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of hipMemcpyAtoH API
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Memory is allocated in GPU-0 and the API is triggered from GPU-1
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Input: "A_d" initialized with "hData" Pi value
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Output:"B_h" host variable output of hipMemcpyAtoH API
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is then validated with "hData"
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*/
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#if HT_AMD
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TEMPLATE_TEST_CASE("Unit_hipMemcpyAtoH_multiDevice-PeerDeviceContext",
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"[hipMemcpyAtoH]",
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char, int, float) {
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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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int peerAccess = 0;
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HIP_CHECK(hipDeviceCanAccessPeer(&peerAccess, 1, 0));
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if (!peerAccess) {
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SUCCEED("Skipped the test as there is no peer access");
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} else {
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HIP_CHECK(hipSetDevice(0));
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hipArray *A_d;
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TestType *hData{nullptr}, *B_h{nullptr};
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size_t width{NUM_W * sizeof(TestType)};
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// Initialization of data
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HipTest::initArrays<TestType>(nullptr, nullptr, nullptr,
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&hData, &B_h, nullptr, NUM_W);
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HipTest::setDefaultData<TestType>(NUM_W, hData, B_h, nullptr);
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hipChannelFormatDesc desc = hipCreateChannelDesc<TestType>();
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HIP_CHECK(hipMallocArray(&A_d, &desc, NUM_W, NUM_H, hipArrayDefault));
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HIP_CHECK(hipMemcpy2DToArray(A_d, 0, 0, hData, width,
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width, NUM_H, hipMemcpyHostToDevice));
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HIP_CHECK(hipDeviceSynchronize());
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// Changing the device context
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HIP_CHECK(hipSetDevice(1));
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// Performing API call
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REQUIRE(hipMemcpyAtoH(B_h, A_d, 0, copy_bytes*sizeof(TestType))
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== hipSuccess);
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// Validating the result
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REQUIRE(HipTest::checkArray(B_h, hData, copy_bytes, NUM_H) == true);
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// DeAllocating the memory
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HIP_CHECK(hipFreeArray(A_d));
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REQUIRE(HipTest::freeArrays<TestType>(nullptr, nullptr, nullptr,
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hData, B_h,
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nullptr, false) == true);
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}
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} else {
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SUCCEED("skipping the testcases as numDevices < 2");
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}
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}
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#endif
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/*
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This testcase verifies the negative scenarios of hipMemcpyAtoH API
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*/
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TEST_CASE("Unit_hipMemcpyAtoH_Negative") {
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HIP_CHECK(hipSetDevice(0));
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hipArray *A_d;
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float *hData{nullptr}, *B_h{nullptr};
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size_t width{NUM_W * sizeof(float)};
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// Initialization of data
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HipTest::initArrays<float>(nullptr, nullptr, nullptr,
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&hData, &B_h, nullptr, NUM_W);
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HipTest::setDefaultData<float>(NUM_W, hData, B_h, nullptr);
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hipChannelFormatDesc desc = hipCreateChannelDesc<float>();
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HIP_CHECK(hipMallocArray(&A_d, &desc, NUM_W, NUM_H, hipArrayDefault));
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HIP_CHECK(hipMemcpy2DToArray(A_d, 0, 0, hData, width,
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width, NUM_H, hipMemcpyHostToDevice));
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SECTION("Destination pointer is nullptr") {
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REQUIRE(hipMemcpyAtoH(nullptr, A_d, 0, copy_bytes*sizeof(float))
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!= hipSuccess);
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}
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SECTION("Source offset is more than allocated size") {
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REQUIRE(hipMemcpyAtoH(B_h, A_d, 100, copy_bytes*sizeof(float))
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!= hipSuccess);
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}
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SECTION("ByteCount is greater than allocated size") {
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REQUIRE(hipMemcpyAtoH(B_h, A_d, 0, 12*sizeof(float)) != hipSuccess);
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}
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// DeAllocating the memory
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HIP_CHECK(hipFreeArray(A_d));
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REQUIRE(HipTest::freeArrays<float>(nullptr, nullptr, nullptr, hData, B_h,
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nullptr, false) == true);
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}
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/*
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This testcase verifies size 0 check of hipMemcpyAtoH API
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Excluded the testcase for amd,as there is already a bug raised
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SWDEV-274683
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*/
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#if HT_NVIDIA
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TEST_CASE("Unit_hipMemcpyAtoH_SizeCheck") {
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HIP_CHECK(hipSetDevice(0));
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hipArray *A_d;
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float *hData{nullptr}, *B_h{nullptr}, *def_data{nullptr};
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size_t width{NUM_W * sizeof(float)};
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// Initialization of data
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HipTest::initArrays<float>(nullptr, nullptr, nullptr,
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nullptr, &def_data, nullptr, NUM_W);
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HipTest::initArrays<float>(nullptr, nullptr, nullptr,
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&hData, &B_h, nullptr, NUM_W);
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HipTest::setDefaultData<float>(NUM_W, hData, B_h, nullptr);
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HipTest::setDefaultData<float>(NUM_W, nullptr, def_data, nullptr);
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hipChannelFormatDesc desc = hipCreateChannelDesc<float>();
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HIP_CHECK(hipMallocArray(&A_d, &desc, NUM_W, NUM_H, hipArrayDefault));
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HIP_CHECK(hipMemcpy2DToArray(A_d, 0, 0, hData, width,
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width, NUM_H, hipMemcpyHostToDevice));
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SECTION("Passing 0 to copy bytes") {
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REQUIRE(hipMemcpyAtoH(B_h, A_d, 0, 0) == hipSuccess);
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REQUIRE(HipTest::checkArray(B_h, def_data, NUM_W, NUM_H) == true);
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}
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SECTION(" Source Array is nullptr") {
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REQUIRE(hipMemcpyAtoH(B_h, nullptr, 0, copy_bytes*sizeof(float))
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!= hipSuccess);
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}
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// DeAllocating the memory
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HIP_CHECK(hipFreeArray(A_d));
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REQUIRE(HipTest::freeArrays<float>(nullptr, nullptr, nullptr, hData, B_h,
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def_data, false) == true);
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}
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#endif
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@@ -0,0 +1,229 @@
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/*
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Copyright (c) 2021 - present Advanced Micro Devices, Inc. All rights reserved.
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Permission is hereby granted, free of charge, to any person obtaining a copy
|
||||
of this software and associated documentation files (the "Software"), to deal
|
||||
in the Software without restriction, including without limitation the rights
|
||||
to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
|
||||
copies of the Software, and to permit persons to whom the Software is
|
||||
furnished to do so, subject to the following conditions:
|
||||
The above copyright notice and this permission notice shall be included in
|
||||
all copies or substantial portions of the Software.
|
||||
THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
|
||||
IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
|
||||
FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
|
||||
AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
|
||||
LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
|
||||
OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
|
||||
THE SOFTWARE.
|
||||
*/
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/*
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* Test Scenarios:
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* 1. Perform simple and pinned host memory of hipMemcpyHtoA API
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* 2. Allocate Memory from one GPU device and call hipMemcpyHtoA from Peer
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* GPU device
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* 3. Perform hipMemcpyHtoA Negative Scenarios
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* 4. Perform bytecount 0 validation for hipMemcpyHtoA API
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*/
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#include <hip_test_common.hh>
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#include <hip_test_checkers.hh>
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static constexpr auto NUM_W{10};
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static constexpr auto NUM_H{1};
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static constexpr auto copy_bytes{2};
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/*
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This testcase performs the basic and pinned host memory scenarios
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of hipMemcpyHtoA API
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Input: "B_h" which is initialized with 1.6
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Output: "A_d" output of hipMemcpyHtoA is copied to "hData" host variable
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validated the result with "B_h"
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The same scenario is then verified with pinned host memory
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*/
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TEMPLATE_TEST_CASE("Unit_hipMemcpyHtoA_Basic", "[hipMemcpyHtoA]",
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char, int, float) {
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HIP_CHECK(hipSetDevice(0));
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auto memtype_check = GENERATE(0, 1);
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hipArray *A_d;
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TestType *hData{nullptr}, *B_h{nullptr};
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size_t width{NUM_W * sizeof(TestType)};
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// Initialization of data
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if (memtype_check) {
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HipTest::initArrays<TestType>(nullptr, nullptr, nullptr,
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&hData, &B_h, nullptr, NUM_W, true);
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} else {
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HipTest::initArrays<TestType>(nullptr, nullptr, nullptr,
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&hData, &B_h, nullptr, NUM_W);
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}
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HipTest::setDefaultData<TestType>(NUM_W, hData, B_h, nullptr);
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hipChannelFormatDesc desc = hipCreateChannelDesc<TestType>();
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HIP_CHECK(hipMallocArray(&A_d, &desc, NUM_W, NUM_H, hipArrayDefault));
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HIP_CHECK(hipMemcpy2DToArray(A_d, 0, 0, hData, width,
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width, NUM_H, hipMemcpyHostToDevice));
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// Performing API call
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HIP_CHECK(hipMemcpyHtoA(A_d, 0, B_h, copy_bytes*sizeof(TestType)));
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HIP_CHECK(hipMemcpy2DFromArray(hData, sizeof(TestType)*NUM_W, A_d,
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0, 0, sizeof(TestType)*NUM_W, 1, hipMemcpyDeviceToHost));
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// Validating the result
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REQUIRE(HipTest::checkArray(B_h, hData, copy_bytes, NUM_H) == true);
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// DeAllocating the memory
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HIP_CHECK(hipFreeArray(A_d));
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if (memtype_check) {
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REQUIRE(HipTest::freeArrays<TestType>(nullptr, nullptr, nullptr, hData, B_h,
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nullptr, true) == true);
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} else {
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REQUIRE(HipTest::freeArrays<TestType>(nullptr, nullptr, nullptr, hData, B_h,
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nullptr, false) == true);
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}
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}
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/*
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This testcase performs the peer device context scenario
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of hipMemcpyHtoA API
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Memory is allocated in GPU-0 and the API is triggered from GPU-1
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Input: "B_h" which is initialized with 1.6
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Output: "A_d" output of hipMemcpyHtoA is copied to "hData" host variable
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validated the result with "B_h"
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*/
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#if HT_AMD
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TEMPLATE_TEST_CASE("Unit_hipMemcpyHtoA_multiDevice-PeerDeviceContext",
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"[hipMemcpyHtoA]",
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char, int, float) {
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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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int peerAccess = 0;
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HIP_CHECK(hipDeviceCanAccessPeer(&peerAccess, 1, 0));
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if (!peerAccess) {
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SUCCEED("Skipped the test as there is no peer access");
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} else {
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HIP_CHECK(hipSetDevice(0));
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hipArray *A_d;
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TestType *hData{nullptr}, *B_h{nullptr};
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size_t width{NUM_W * sizeof(TestType)};
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// Initialization of data
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HipTest::initArrays<TestType>(nullptr, nullptr, nullptr,
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&hData, &B_h, nullptr, NUM_W);
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HipTest::setDefaultData<TestType>(NUM_W, hData, B_h, nullptr);
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hipChannelFormatDesc desc = hipCreateChannelDesc<TestType>();
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HIP_CHECK(hipMallocArray(&A_d, &desc, NUM_W, NUM_H, hipArrayDefault));
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HIP_CHECK(hipMemcpy2DToArray(A_d, 0, 0, hData, width,
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width, NUM_H, hipMemcpyHostToDevice));
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// Changing the device context
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HIP_CHECK(hipSetDevice(1));
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// Performing API call
|
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HIP_CHECK(hipMemcpyHtoA(A_d, 0, B_h, copy_bytes*sizeof(TestType)));
|
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HIP_CHECK(hipMemcpy2DFromArray(hData, sizeof(TestType)*NUM_W, A_d,
|
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0, 0, sizeof(TestType)*NUM_W, 1,
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hipMemcpyDeviceToHost));
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|
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// Validating the result
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REQUIRE(HipTest::checkArray(B_h, hData, copy_bytes, NUM_H) == true);
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// DeAllocating the memory
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HIP_CHECK(hipFreeArray(A_d));
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REQUIRE(HipTest::freeArrays<TestType>(nullptr, nullptr, nullptr,
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hData, B_h,
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nullptr, false) == true);
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}
|
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} else {
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SUCCEED("skipping the testcases as numDevices < 2");
|
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}
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}
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#endif
|
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|
||||
|
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/*
|
||||
This testcase verifies the negative scenarios of hipMemcpyHtoA API
|
||||
*/
|
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TEST_CASE("Unit_hipMemcpyHtoA_Negative") {
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HIP_CHECK(hipSetDevice(0));
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hipArray *A_d;
|
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float *hData{nullptr}, *B_h{nullptr};
|
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size_t width{NUM_W * sizeof(float)};
|
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|
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// Initialization of data
|
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HipTest::initArrays<float>(nullptr, nullptr, nullptr,
|
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&hData, &B_h, nullptr, NUM_W);
|
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HipTest::setDefaultData<float>(NUM_W, hData, B_h, nullptr);
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hipChannelFormatDesc desc = hipCreateChannelDesc<float>();
|
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HIP_CHECK(hipMallocArray(&A_d, &desc, NUM_W, NUM_H, hipArrayDefault));
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HIP_CHECK(hipMemcpy2DToArray(A_d, 0, 0, hData, width,
|
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width, NUM_H, hipMemcpyHostToDevice));
|
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|
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SECTION("Source pointer is nullptr") {
|
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REQUIRE(hipMemcpyHtoA(A_d, 0, nullptr, copy_bytes*sizeof(float))
|
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!= hipSuccess);
|
||||
}
|
||||
|
||||
SECTION("Source offset is more than allocated size") {
|
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REQUIRE(hipMemcpyHtoA(A_d, 100, B_h, copy_bytes*sizeof(float))
|
||||
!= hipSuccess);
|
||||
}
|
||||
|
||||
SECTION("ByteCount is greater than allocated size") {
|
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REQUIRE(hipMemcpyHtoA(A_d, 0, B_h, 12*sizeof(float)) != hipSuccess);
|
||||
}
|
||||
|
||||
// DeAllocating the memory
|
||||
HIP_CHECK(hipFreeArray(A_d));
|
||||
REQUIRE(HipTest::freeArrays<float>(nullptr, nullptr, nullptr, hData, B_h,
|
||||
nullptr, false) == true);
|
||||
}
|
||||
|
||||
/*
|
||||
This testcase verifies the size 0 check of hipMemcpyHtoA API
|
||||
This is excluded for AMD as we have a bug already raised
|
||||
SWDEV-274683
|
||||
*/
|
||||
#if HT_NVIDIA
|
||||
TEST_CASE("Unit_hipMemcpyHtoA_SizeCheck") {
|
||||
HIP_CHECK(hipSetDevice(0));
|
||||
hipArray *A_d;
|
||||
float *hData{nullptr}, *B_h{nullptr}, *def_data{nullptr};
|
||||
size_t width{NUM_W * sizeof(float)};
|
||||
|
||||
// Initialization of data
|
||||
HipTest::initArrays<float>(nullptr, nullptr, nullptr,
|
||||
nullptr, &def_data, nullptr, NUM_W);
|
||||
HipTest::initArrays<float>(nullptr, nullptr, nullptr,
|
||||
&hData, &B_h, nullptr, NUM_W);
|
||||
HipTest::setDefaultData<float>(NUM_W, hData, B_h, nullptr);
|
||||
HipTest::setDefaultData<float>(NUM_W, nullptr, def_data, nullptr);
|
||||
hipChannelFormatDesc desc = hipCreateChannelDesc<float>();
|
||||
HIP_CHECK(hipMallocArray(&A_d, &desc, NUM_W, NUM_H, hipArrayDefault));
|
||||
HIP_CHECK(hipMemcpy2DToArray(A_d, 0, 0, hData, width,
|
||||
width, NUM_H, hipMemcpyHostToDevice));
|
||||
|
||||
SECTION("Passing 0 to copy bytes") {
|
||||
REQUIRE(hipMemcpyHtoA(A_d, 0, B_h, 0) == hipSuccess);
|
||||
HIP_CHECK(hipMemcpy2DFromArray(def_data, sizeof(float)*NUM_W, A_d,
|
||||
0, 0, sizeof(float)*NUM_W, 1,
|
||||
hipMemcpyDeviceToHost));
|
||||
|
||||
REQUIRE(HipTest::checkArray(hData, def_data, NUM_W, NUM_H) == true);
|
||||
}
|
||||
|
||||
SECTION(" Source Array is nullptr") {
|
||||
REQUIRE(hipMemcpyHtoA(nullptr, 0, B_h, copy_bytes*sizeof(float))
|
||||
!= hipSuccess);
|
||||
}
|
||||
|
||||
// DeAllocating the memory
|
||||
HIP_CHECK(hipFreeArray(A_d));
|
||||
REQUIRE(HipTest::freeArrays<float>(nullptr, nullptr, nullptr, hData, B_h,
|
||||
def_data, false) == true);
|
||||
}
|
||||
#endif
|
||||
Ссылка в новой задаче
Block a user