rocm-systems/projects/hip-tests/catch/unit/memory/hipMemcpy2DFromArrayAsync.cc

/*
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THE SOFTWARE.
*/
/*
Testcase Scenarios :
Unit_hipMemcpy2DFromArrayAsync_Positive_Default - Test basic async memcpy
between 2D array and host/device with hipMemcpy2DFromArrayAsync api
Unit_hipMemcpy2DFromArrayAsync_Positive_Synchronization_Behavior - Test
synchronization behavior for hipMemcpy2DFromArrayAsync api
Unit_hipMemcpy2DFromArrayAsync_Positive_ZeroWidthHeight - Test that no data is
copied when width/height is set to 0
Unit_hipMemcpy2DFromArrayAsync_Negative_Parameters - Test unsuccessful execution
of hipMemcpy2DFromArrayAsync api when parameters are invalid
*/
#include "array_memcpy_tests_common.hh"

#include <hip/hip_runtime_api.h>
#include <hip_test_common.hh>
#include <resource_guards.hh>
#include <utils.hh>

TEST_CASE("Unit_hipMemcpy2DFromArrayAsync_Positive_Default", "[multigpu]") {
  CHECK_IMAGE_SUPPORT

  using namespace std::placeholders;

  const auto stream_type = GENERATE(Streams::nullstream, Streams::perThread, Streams::created);
  const StreamGuard stream_guard(stream_type);
  const hipStream_t stream = stream_guard.stream();

  const auto width = GENERATE(16, 32, 48);
  const auto height = GENERATE(1, 16, 32, 48);

  SECTION("Array to host") {
    Memcpy2DHostFromAShell<true, int>(
        std::bind(hipMemcpy2DFromArrayAsync, _1, _2, _3, 0, 0, width * sizeof(int), height,
                  hipMemcpyDeviceToHost, stream),
        width, height, stream);
  }

  SECTION("Array to host with default kind") {
    Memcpy2DHostFromAShell<true, int>(
        std::bind(hipMemcpy2DFromArrayAsync, _1, _2, _3, 0, 0, width * sizeof(int), height,
                  hipMemcpyDefault, stream),
        width, height, stream);
  }
#if HT_NVIDIA  // EXSWHTEC-213
  SECTION("Array to device") {
    SECTION("Peer access disabled") {
      Memcpy2DDeviceFromAShell<true, false, int>(
          std::bind(hipMemcpy2DFromArrayAsync, _1, _2, _3, 0, 0, width * sizeof(int), height,
                    hipMemcpyDeviceToDevice, stream),
          width, height, stream);
    }
    SECTION("Peer access enabled") {
      Memcpy2DDeviceFromAShell<true, true, int>(
          std::bind(hipMemcpy2DFromArrayAsync, _1, _2, _3, 0, 0, width * sizeof(int), height,
                    hipMemcpyDeviceToDevice, stream),
          width, height, stream);
    }
  }

  SECTION("Array to device with default kind") {
    SECTION("Peer access disabled") {
      Memcpy2DDeviceFromAShell<true, false, int>(
          std::bind(hipMemcpy2DFromArrayAsync, _1, _2, _3, 0, 0, width * sizeof(int), height,
                    hipMemcpyDefault, stream),
          width, height, stream);
    }
    SECTION("Peer access enabled") {
      Memcpy2DDeviceFromAShell<true, true, int>(
          std::bind(hipMemcpy2DFromArrayAsync, _1, _2, _3, 0, 0, width * sizeof(int), height,
                    hipMemcpyDefault, stream),
          width, height, stream);
    }
  }
#endif
}

TEST_CASE("Unit_hipMemcpy2DFromArrayAsync_Positive_Synchronization_Behavior") {
  CHECK_IMAGE_SUPPORT

  using namespace std::placeholders;
  HIP_CHECK(hipDeviceSynchronize());

  SECTION("Array to host") {
    const auto width = GENERATE(16, 32, 48);
    const auto height = GENERATE(16, 32, 48);

    MemcpyAtoHPageableSyncBehavior(
        std::bind(hipMemcpy2DFromArrayAsync, _1, width * sizeof(int), _2, 0, 0, width * sizeof(int),
                  height, hipMemcpyDeviceToHost, nullptr),
        width, height, false);
    MemcpyAtoHPinnedSyncBehavior(
        std::bind(hipMemcpy2DFromArrayAsync, _1, width * sizeof(int), _2, 0, 0, width * sizeof(int),
                  height, hipMemcpyDeviceToHost, nullptr),
        width, height, false);
  }

  SECTION("Array to device") {
    const auto width = GENERATE(16, 32, 48);
    const auto height = GENERATE(16, 32, 48);

    MemcpyAtoDSyncBehavior(std::bind(hipMemcpy2DFromArrayAsync, _1, _2, _3, 0, 0,
                                     width * sizeof(int), height, hipMemcpyDeviceToDevice, nullptr),
                           width, height, false);
  }
}

TEST_CASE("Unit_hipMemcpy2DFromArrayAsync_Positive_ZeroWidthHeight") {
  CHECK_IMAGE_SUPPORT

  using namespace std::placeholders;

  const auto stream_type = GENERATE(Streams::nullstream, Streams::perThread, Streams::created);
  const StreamGuard stream_guard(stream_type);
  const hipStream_t stream = stream_guard.stream();

  const auto width = 16;
  const auto height = 16;

  SECTION("Array to host") {
    SECTION("Height is 0") {
      Memcpy2DFromArrayZeroWidthHeight<true>(
          std::bind(hipMemcpy2DFromArrayAsync, _1, _2, _3, 0, 0, width * sizeof(int), 0,
                    hipMemcpyDeviceToHost, stream),
          width, height, stream);
    }
    SECTION("Width is 0") {
      Memcpy2DFromArrayZeroWidthHeight<true>(std::bind(hipMemcpy2DFromArrayAsync, _1, _2, _3, 0, 0,
                                                       0, height, hipMemcpyDeviceToHost, stream),
                                             width, height, stream);
    }
  }
  SECTION("Array to device") {
    SECTION("Height is 0") {
      Memcpy2DFromArrayZeroWidthHeight<true>(
          std::bind(hipMemcpy2DFromArrayAsync, _1, _2, _3, 0, 0, width * sizeof(int), 0,
                    hipMemcpyDeviceToDevice, stream),
          width, height, stream);
    }
    SECTION("Width is 0") {
      Memcpy2DFromArrayZeroWidthHeight<true>(std::bind(hipMemcpy2DFromArrayAsync, _1, _2, _3, 0, 0,
                                                       0, height, hipMemcpyDeviceToDevice, stream),
                                             width, height, stream);
    }
  }
}

TEST_CASE("Unit_hipMemcpy2DFromArrayAsync_Negative_Parameters") {
  CHECK_IMAGE_SUPPORT

  using namespace std::placeholders;

  const auto width = 32;
  const auto height = 32;
  const auto allocation_size = 2 * width * height * sizeof(int);

  const unsigned int flag = hipArrayDefault;

#if HT_NVIDIA
  constexpr auto InvalidStream = [] {
    StreamGuard sg(Streams::created);
    return sg.stream();
  };
#endif

  ArrayAllocGuard<int> array_alloc(make_hipExtent(width, height, 0), flag);
  LinearAllocGuard2D<int> device_alloc(width, height);
  LinearAllocGuard<int> host_alloc(LinearAllocs::hipHostMalloc, allocation_size);

  SECTION("Array to host") {
    SECTION("dst == nullptr") {
      HIP_CHECK_ERROR(
          hipMemcpy2DFromArrayAsync(nullptr, 2 * width * sizeof(int), array_alloc.ptr(), 0, 0,
                                    width * sizeof(int), height, hipMemcpyDeviceToHost, nullptr),
          hipErrorInvalidValue);
    }
    SECTION("src == nullptr") {
      HIP_CHECK_ERROR(
          hipMemcpy2DFromArrayAsync(host_alloc.ptr(), 2 * width * sizeof(int), nullptr, 0, 0,
                                    width * sizeof(int), height, hipMemcpyDeviceToHost, nullptr),
          hipErrorInvalidHandle);
    }
#if HT_NVIDIA  // EXSWHTEC-212
    SECTION("dpitch < width") {
      HIP_CHECK_ERROR(hipMemcpy2DFromArrayAsync(host_alloc.ptr(), width * sizeof(int) - 10,
                                                array_alloc.ptr(), 0, 0, width * sizeof(int),
                                                height, hipMemcpyDeviceToHost, nullptr),
                      hipErrorInvalidPitchValue);
    }
    SECTION("Offset + width/height overflows") {
      HIP_CHECK_ERROR(
          hipMemcpy2DFromArrayAsync(host_alloc.ptr(), 2 * width * sizeof(int), array_alloc.ptr(), 1,
                                    0, width * sizeof(int), height, hipMemcpyDeviceToHost, nullptr),
          hipErrorInvalidValue);
      HIP_CHECK_ERROR(
          hipMemcpy2DFromArrayAsync(host_alloc.ptr(), 2 * width * sizeof(int), array_alloc.ptr(), 0,
                                    1, width * sizeof(int), height, hipMemcpyDeviceToHost, nullptr),
          hipErrorInvalidValue);
    }
    SECTION("Width/height overflows") {
      HIP_CHECK_ERROR(hipMemcpy2DFromArrayAsync(host_alloc.ptr(), 2 * width * sizeof(int),
                                                array_alloc.ptr(), 0, 0, width * sizeof(int) + 1,
                                                height, hipMemcpyDeviceToHost, nullptr),
                      hipErrorInvalidValue);
      HIP_CHECK_ERROR(hipMemcpy2DFromArrayAsync(host_alloc.ptr(), 2 * width * sizeof(int),
                                                array_alloc.ptr(), 0, 0, width * sizeof(int),
                                                height + 1, hipMemcpyDeviceToHost, nullptr),
                      hipErrorInvalidValue);
    }
    SECTION("Memcpy kind is invalid") {
      HIP_CHECK_ERROR(hipMemcpy2DFromArrayAsync(host_alloc.ptr(), 2 * width * sizeof(int),
                                                array_alloc.ptr(), 0, 0, width * sizeof(int),
                                                height, static_cast<hipMemcpyKind>(-1), nullptr),
                      hipErrorInvalidMemcpyDirection);
    }
#endif
  }
  SECTION("Array to device") {
    SECTION("dst == nullptr") {
      HIP_CHECK_ERROR(
          hipMemcpy2DFromArrayAsync(nullptr, device_alloc.pitch(), array_alloc.ptr(), 0, 0,
                                    width * sizeof(int), height, hipMemcpyDeviceToDevice, nullptr),
          hipErrorInvalidValue);
    }
    SECTION("src == nullptr") {
      HIP_CHECK_ERROR(
          hipMemcpy2DFromArrayAsync(device_alloc.ptr(), device_alloc.pitch(), nullptr, 0, 0,
                                    width * sizeof(int), height, hipMemcpyDeviceToDevice, nullptr),
          hipErrorInvalidHandle);
    }
#if HT_NVIDIA  // EXSWHTEC-212
    SECTION("dpitch < width") {
      HIP_CHECK_ERROR(hipMemcpy2DFromArrayAsync(device_alloc.ptr(), width * sizeof(int) - 10,
                                                array_alloc.ptr(), 0, 0, width * sizeof(int),
                                                height, hipMemcpyDeviceToDevice, nullptr),
                      hipErrorInvalidPitchValue);
    }
    SECTION("Offset + width/height overflows") {
      HIP_CHECK_ERROR(hipMemcpy2DFromArrayAsync(device_alloc.ptr(), device_alloc.pitch(),
                                                array_alloc.ptr(), 1, 0, width * sizeof(int),
                                                height, hipMemcpyDeviceToDevice, nullptr),
                      hipErrorInvalidValue);
      HIP_CHECK_ERROR(hipMemcpy2DFromArrayAsync(device_alloc.ptr(), device_alloc.pitch(),
                                                array_alloc.ptr(), 0, 1, width * sizeof(int),
                                                height, hipMemcpyDeviceToDevice, nullptr),
                      hipErrorInvalidValue);
    }
    SECTION("Width/height overflows") {
      HIP_CHECK_ERROR(hipMemcpy2DFromArrayAsync(device_alloc.ptr(), device_alloc.pitch(),
                                                array_alloc.ptr(), 0, 0, width * sizeof(int) + 1,
                                                height, hipMemcpyDeviceToDevice, nullptr),
                      hipErrorInvalidValue);
      HIP_CHECK_ERROR(hipMemcpy2DFromArrayAsync(device_alloc.ptr(), device_alloc.pitch(),
                                                array_alloc.ptr(), 0, 0, width * sizeof(int),
                                                height + 1, hipMemcpyDeviceToDevice, nullptr),
                      hipErrorInvalidValue);
    }
    SECTION("Memcpy kind is invalid") {
      HIP_CHECK_ERROR(hipMemcpy2DFromArrayAsync(device_alloc.ptr(), device_alloc.pitch(),
                                                array_alloc.ptr(), 0, 0, width * sizeof(int),
                                                height, static_cast<hipMemcpyKind>(-1), nullptr),
                      hipErrorInvalidMemcpyDirection);
    }
#endif
  }
}