/* Copyright (c) 2024-2025 Advanced Micro Devices, Inc. All rights reserved. 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. */ #include #include #include #include #include "user_object_common.hh" bool setVar = false; void* globalPtr = nullptr; std::mutex m; std::condition_variable cv; /** * @addtogroup hipUserObjectCreate hipUserObjectCreate * @{ * @ingroup GraphTest * `hipError_t hipUserObjectCreate(hipUserObject_t* object_out, * void* ptr, hipHostFn_t destroy, * unsigned int initialRefcount, * unsigned int flags);` * - Create an instance of userObject to manage lifetime of a resource. */ template __global__ void KernelFn(T* Ad, int clockrate, int WaitSecs) { uint64_t num_cycles = (uint64_t)clockrate; num_cycles = num_cycles * 1000 * WaitSecs; uint64_t start = clock64(), cycles = 0; while (cycles < num_cycles) { cycles = clock64() - start; } if ((std::is_same::value) == true) { *Ad = 9999.0f; } else if ((std::is_same::value) == true) { *Ad = 9999; } else { *Ad = 0; } } void threadFunc_dltMemory() { std::unique_lock lk(m); cv.wait(lk, [] { return setVar; }); REQUIRE(globalPtr != nullptr); HIP_CHECK(hipHostFree(globalPtr)); setVar = false; } void destroyPinnedObj(void* ptr) { globalPtr = ptr; setVar = true; cv.notify_one(); } template void hipUserObjectCreate_int_float_Objects(T* hostArr, T* devArr, void destroyObj(void*)) { int clockrate = 0; HIP_CHECK(hipDeviceGetAttribute(&clockrate, hipDeviceAttributeMemoryClockRate, 0)); hipGraph_t graph = nullptr; hipStream_t stream; HIP_CHECK(hipStreamCreate(&stream)); HIP_CHECK(hipStreamBeginCapture(stream, hipStreamCaptureModeGlobal)); HIP_CHECK(hipMemcpyAsync(devArr, hostArr, sizeof(int), hipMemcpyHostToDevice, stream)); KernelFn<<<1, 1, 0, stream>>>(devArr, clockrate, 5); HIP_CHECK(hipMemcpyAsync(hostArr, devArr, sizeof(int), hipMemcpyDeviceToHost, stream)); HIP_CHECK(hipStreamEndCapture(stream, &graph)); REQUIRE(graph != nullptr); hipUserObject_t Uobj; int refCount = 1; HIP_CHECK( hipUserObjectCreate(&Uobj, hostArr, destroyObj, refCount, hipUserObjectNoDestructorSync)); HIP_CHECK(hipGraphRetainUserObject(graph, Uobj, refCount, 0)); hipGraphExec_t graph_instance; HIP_CHECK(hipGraphInstantiate(&graph_instance, graph, nullptr, nullptr, 0)); HIP_CHECK(hipGraphDestroy(graph)); SECTION("graph_instance is destroyed before async launch completes") { HIP_CHECK(hipGraphLaunch(graph_instance, stream)); HIP_CHECK(hipGraphExecDestroy(graph_instance)); HIP_CHECK(hipStreamSynchronize(stream)); if ((std::is_same::value) == true) { REQUIRE(*hostArr == 9999.0); } else if ((std::is_same::value) == true) { REQUIRE(*hostArr == 9999); } else { REQUIRE(false); } HIP_CHECK(hipUserObjectRelease(Uobj, 1)); } HIP_CHECK(hipStreamDestroy(stream)); } /** * Test Description * ------------------------ * - Verify the release of reference and destructor execution * will be deferred until the graph is synchronized. * - References are only released at hipGraphDestroy() * and hipGraphExecDestroy() calls * - This test is to verify the above cases with a graph created * from stream capture and with Dynamic memory. * Test source * ------------------------ * - catch\unit\graph\hipGraphAsyncUserObj.cc * Test requirements * ------------------------ * - HIP_VERSION >= 6.3 */ TEST_CASE("Unit_hipGraphUserObj_Int_float_Objects") { SECTION("Called with Int Obj") { std::thread t1(threadFunc_dltMemory); int* hostArr = nullptr; HIP_CHECK(hipHostMalloc(&hostArr, sizeof(int))); REQUIRE(hostArr != nullptr); *hostArr = 1111; int* devArr = nullptr; HIP_CHECK(hipMalloc(&devArr, sizeof(int))); REQUIRE(devArr != nullptr); hipUserObjectCreate_int_float_Objects(hostArr, devArr, destroyPinnedObj); HIP_CHECK(hipFree(devArr)); t1.join(); } SECTION("Called with float Obj") { std::thread t1(threadFunc_dltMemory); float* hostArr = nullptr; HIP_CHECK(hipHostMalloc(&hostArr, sizeof(float))); REQUIRE(hostArr != nullptr); *hostArr = 1111.0f; float* devArr = nullptr; HIP_CHECK(hipMalloc(&devArr, sizeof(float))); REQUIRE(devArr != nullptr); hipUserObjectCreate_int_float_Objects(hostArr, devArr, destroyPinnedObj); HIP_CHECK(hipFree(devArr)); t1.join(); } } void destroyHostRegObj(void* ptr) { int* ptr2 = reinterpret_cast(ptr); delete ptr2; } /** * Test Description * ------------------------ * - Verify the release of reference and destructor execution * will be deferred until the graph is synchronized. * - References are only released at hipGraphDestroy() * and hipGraphExecDestroy() calls * - This test is to verify the above cases with a graph created * from stream capture and with Registered memory. * Test source * ------------------------ * - catch\unit\graph\hipGraphAsyncUserObj.cc * Test requirements * ------------------------ * - HIP_VERSION >= 6.3 */ TEST_CASE("Unit_hipGraphUserObj_HostRegister") { int clockrate = 0; HIP_CHECK(hipDeviceGetAttribute(&clockrate, hipDeviceAttributeMemoryClockRate, 0)); int* A_h = new int(); int* A_d = nullptr; HIP_CHECK(hipHostRegister(A_h, sizeof(int), 0)); REQUIRE(A_h != nullptr); *A_h = 1; HIP_CHECK(hipHostGetDevicePointer(reinterpret_cast(&A_d), A_h, 0)); REQUIRE(A_d != nullptr); hipGraph_t graph = nullptr; hipStream_t stream; HIP_CHECK(hipStreamCreate(&stream)); HIP_CHECK(hipStreamBeginCapture(stream, hipStreamCaptureModeGlobal)); KernelFn<<<1, 1, 0, stream>>>(A_d, clockrate, 5); HIP_CHECK(hipStreamEndCapture(stream, &graph)); REQUIRE(graph != nullptr); hipUserObject_t Uobj; int refCount = 1; HIP_CHECK( hipUserObjectCreate(&Uobj, A_h, destroyHostRegObj, refCount, hipUserObjectNoDestructorSync)); HIP_CHECK(hipGraphRetainUserObject(graph, Uobj, refCount, 0)); hipGraphExec_t graph_instance; HIP_CHECK(hipGraphInstantiate(&graph_instance, graph, nullptr, nullptr, 0)); HIP_CHECK(hipGraphDestroy(graph)); HIP_CHECK(hipGraphLaunch(graph_instance, stream)); HIP_CHECK(hipGraphExecDestroy(graph_instance)); HIP_CHECK(hipStreamSynchronize(stream)); REQUIRE(*A_h == 9999); HIP_CHECK(hipUserObjectRelease(Uobj, 1)); HIP_CHECK(hipStreamDestroy(stream)); HIP_CHECK(hipHostUnregister(A_h)); } template __global__ void StructClassKernelFn(T* Obj, int clockrate, int WaitSecs) { uint64_t num_cycles = (uint64_t)clockrate; num_cycles = num_cycles * 1000 * WaitSecs; uint64_t start = clock64(), cycles = 0; while (cycles < num_cycles) { cycles = clock64() - start; } Obj->count = 9999; } template void hipUserObjectCreate_Struct_Class_Objects(T* Obj_h, T* Obj_d) { int clockrate = 0; HIP_CHECK(hipDeviceGetAttribute(&clockrate, hipDeviceAttributeMemoryClockRate, 0)); hipGraph_t graph = nullptr; hipStream_t stream; HIP_CHECK(hipStreamCreate(&stream)); HIP_CHECK(hipStreamBeginCapture(stream, hipStreamCaptureModeGlobal)); HIP_CHECK(hipMemcpyAsync(Obj_d, Obj_h, sizeof(BoxStruct), hipMemcpyHostToDevice, stream)); StructClassKernelFn<<<1, 1, 0, stream>>>(Obj_d, clockrate, 5); HIP_CHECK(hipMemcpyAsync(Obj_h, Obj_d, sizeof(BoxStruct), hipMemcpyDeviceToHost, stream)); HIP_CHECK(hipStreamEndCapture(stream, &graph)); REQUIRE(graph != nullptr); hipUserObject_t Uobj; int refCount = 1; HIP_CHECK( hipUserObjectCreate(&Uobj, Obj_h, destroyPinnedObj, refCount, hipUserObjectNoDestructorSync)); HIP_CHECK(hipGraphRetainUserObject(graph, Uobj, refCount, 0)); hipGraphExec_t graph_instance; HIP_CHECK(hipGraphInstantiate(&graph_instance, graph, nullptr, nullptr, 0)); HIP_CHECK(hipGraphDestroy(graph)); HIP_CHECK(hipGraphLaunch(graph_instance, stream)); HIP_CHECK(hipGraphExecDestroy(graph_instance)); HIP_CHECK(hipStreamSynchronize(stream)); REQUIRE(Obj_h->count == 9999); HIP_CHECK(hipUserObjectRelease(Uobj, 1)); HIP_CHECK(hipStreamDestroy(stream)); HIP_CHECK(hipFree(Obj_d)); } /** * Test Description * ------------------------ * - Verify the release of reference and destructor execution * will be deferred until the graph is synchronized. * - References are only released at hipGraphDestroy() * and hipGraphExecDestroy() calls * - This test is to verify the above cases with a graph created * from stream capture and with dynamic host memory as class * and structure objects. * Test source * ------------------------ * - catch\unit\graph\hipGraphAsyncUserObj.cc * Test requirements * ------------------------ * - HIP_VERSION >= 6.3 */ TEST_CASE("Unit_hipGraphUserObj_Struct_Class_Ojects") { SECTION("Called with Struct Object") { std::thread t1(threadFunc_dltMemory); BoxStruct* structObj_h; HIP_CHECK(hipHostMalloc(&structObj_h, sizeof(BoxStruct))); REQUIRE(structObj_h != nullptr); structObj_h->count = 1111; BoxStruct* structObj_d; HIP_CHECK(hipMalloc(&structObj_d, sizeof(BoxStruct))); REQUIRE(structObj_d != nullptr); hipUserObjectCreate_Struct_Class_Objects(structObj_h, structObj_d); t1.join(); } SECTION("Called with Class Object") { std::thread t1(threadFunc_dltMemory); BoxClass* classObj_h; HIP_CHECK(hipHostMalloc(&classObj_h, sizeof(BoxClass))); REQUIRE(classObj_h != nullptr); classObj_h->count = 1111; BoxClass* classObj_d; HIP_CHECK(hipMalloc(&classObj_d, sizeof(BoxClass))); REQUIRE(classObj_d != nullptr); hipUserObjectCreate_Struct_Class_Objects(classObj_h, classObj_d); t1.join(); } } /** * Test Description * ------------------------ * - Verify the release of reference and destructor execution * will be deferred until the graph is synchronized. * - References are only released at hipGraphDestroy() * and hipGraphExecDestroy() calls * - This test is to verify the above cases with a cloned graph * created from stream capture and with Dynamic memory. * Test source * ------------------------ * - catch\unit\graph\hipGraphAsyncUserObj.cc * Test requirements * ------------------------ * - HIP_VERSION >= 6.3 */ TEST_CASE("Unit_hipGraphUserObj_ClonedGraph") { int clockrate = 0; HIP_CHECK(hipDeviceGetAttribute(&clockrate, hipDeviceAttributeMemoryClockRate, 0)); std::thread t1(threadFunc_dltMemory); int* hostArr = nullptr; HIP_CHECK(hipHostMalloc(&hostArr, sizeof(int))); REQUIRE(hostArr != nullptr); *hostArr = 1111; int* devArr = nullptr; HIP_CHECK(hipMalloc(&devArr, sizeof(int))); REQUIRE(devArr != nullptr); hipGraph_t graph = nullptr, clonedgraph = nullptr; hipStream_t stream; HIP_CHECK(hipStreamCreate(&stream)); HIP_CHECK(hipStreamBeginCapture(stream, hipStreamCaptureModeGlobal)); HIP_CHECK(hipMemcpyAsync(devArr, hostArr, sizeof(int), hipMemcpyHostToDevice, stream)); KernelFn<<<1, 1, 0, stream>>>(devArr, clockrate, 5); HIP_CHECK(hipMemcpyAsync(hostArr, devArr, sizeof(int), hipMemcpyDeviceToHost, stream)); HIP_CHECK(hipStreamEndCapture(stream, &graph)); REQUIRE(graph != nullptr); hipUserObject_t Uobj; int refCount = 1; HIP_CHECK(hipUserObjectCreate(&Uobj, hostArr, destroyPinnedObj, refCount, hipUserObjectNoDestructorSync)); HIP_CHECK(hipGraphRetainUserObject(graph, Uobj, refCount, 0)); hipGraphExec_t originalGraphInstance, clonedGraphInstance; // Instantiate and launch the original graph HIP_CHECK(hipGraphInstantiate(&originalGraphInstance, graph, nullptr, nullptr, 0)); HIP_CHECK(hipGraphLaunch(originalGraphInstance, stream)); HIP_CHECK(hipGraphExecDestroy(originalGraphInstance)); REQUIRE(*hostArr == 1111); HIP_CHECK(hipGraphClone(&clonedgraph, graph)); REQUIRE(clonedgraph != nullptr); // Instantiate and launch the cloned graph HIP_CHECK(hipGraphInstantiate(&clonedGraphInstance, clonedgraph, nullptr, nullptr, 0)); HIP_CHECK(hipGraphDestroy(graph)); HIP_CHECK(hipGraphDestroy(clonedgraph)); HIP_CHECK(hipGraphLaunch(clonedGraphInstance, stream)); HIP_CHECK(hipGraphExecDestroy(clonedGraphInstance)); HIP_CHECK(hipStreamSynchronize(stream)); REQUIRE(*hostArr == 9999); HIP_CHECK(hipUserObjectRelease(Uobj, 1)); t1.join(); HIP_CHECK(hipStreamDestroy(stream)); HIP_CHECK(hipFree(devArr)); } __global__ void ManualGraphKernelFn(int* Ad, int clockrate, int WaitSecs) { uint64_t num_cycles = (uint64_t)clockrate; num_cycles = num_cycles * 1000 * WaitSecs; uint64_t start = clock64(), cycles = 0; while (cycles < num_cycles) { cycles = clock64() - start; } *Ad = 9999; } /** * Test Description * ------------------------ * - Verify the release of reference and destructor execution * will be deferred until the graph is synchronized. * - References are only released at hipGraphDestroy() * and hipGraphExecDestroy() calls * - This test is to verify the above cases with a Manual graph * created from stream capture and with Dynamic memory. * Test source * ------------------------ * - catch\unit\graph\hipGraphAsyncUserObj.cc * Test requirements * ------------------------ * - HIP_VERSION >= 6.3 */ TEST_CASE("Unit_hipGraphUserObj_ManualGraph") { int clockrate = 0; HIP_CHECK(hipDeviceGetAttribute(&clockrate, hipDeviceAttributeMemoryClockRate, 0)); std::thread t1(threadFunc_dltMemory); hipGraph_t graph; hipGraphNode_t memcpyNode, kNode; hipKernelNodeParams kNodeParams{}; hipStream_t stream; int* hostArr = nullptr; HIP_CHECK(hipHostMalloc(&hostArr, sizeof(int))); REQUIRE(hostArr != nullptr); *hostArr = 1111; int* devArr = nullptr; HIP_CHECK(hipMalloc(&devArr, sizeof(int))); REQUIRE(devArr != nullptr); std::vector dependencies; HIP_CHECK(hipStreamCreate(&stream)); HIP_CHECK(hipGraphCreate(&graph, 0)); HIP_CHECK(hipGraphAddMemcpyNode1D(&memcpyNode, graph, nullptr, 0, devArr, hostArr, sizeof(int), hipMemcpyHostToDevice)); dependencies.push_back(memcpyNode); kNodeParams.func = reinterpret_cast(ManualGraphKernelFn); int delay = 5; void* kernelArgs[] = {reinterpret_cast(&devArr), &clockrate, &delay}; kNodeParams.gridDim = dim3(1); kNodeParams.blockDim = dim3(1); kNodeParams.kernelParams = kernelArgs; HIP_CHECK( hipGraphAddKernelNode(&kNode, graph, dependencies.data(), dependencies.size(), &kNodeParams)); dependencies.clear(); dependencies.push_back(kNode); HIP_CHECK(hipGraphAddMemcpyNode1D(&memcpyNode, graph, dependencies.data(), dependencies.size(), hostArr, devArr, sizeof(int), hipMemcpyDeviceToHost)); REQUIRE(graph != nullptr); hipUserObject_t Uobj; int refCount = 1; HIP_CHECK(hipUserObjectCreate(&Uobj, hostArr, destroyPinnedObj, refCount, hipUserObjectNoDestructorSync)); HIP_CHECK(hipGraphRetainUserObject(graph, Uobj, refCount, 0)); hipGraphExec_t graph_instance; HIP_CHECK(hipGraphInstantiate(&graph_instance, graph, nullptr, nullptr, 0)); HIP_CHECK(hipGraphDestroy(graph)); HIP_CHECK(hipGraphLaunch(graph_instance, stream)); HIP_CHECK(hipGraphExecDestroy(graph_instance)); HIP_CHECK(hipStreamSynchronize(stream)); REQUIRE(*hostArr == 9999); HIP_CHECK(hipUserObjectRelease(Uobj, 1)); t1.join(); HIP_CHECK(hipStreamDestroy(stream)); HIP_CHECK(hipFree(devArr)); } /** * End doxygen group GraphTest. * @} */