/* * Copyright (c) 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 #include "amd_smi/amdsmi.h" #include "process_info_read.h" #include "../test_common.h" TestProcInfoRead::TestProcInfoRead() : TestBase() { set_title("AMDSMI Process Info Read Test"); set_description("This test verifies that process information such as the " "process ID, PASID, etc. can be read properly."); } TestProcInfoRead::~TestProcInfoRead(void) { } void TestProcInfoRead::SetUp(void) { TestBase::SetUp(); return; } void TestProcInfoRead::DisplayTestInfo(void) { TestBase::DisplayTestInfo(); } void TestProcInfoRead::DisplayResults(void) const { TestBase::DisplayResults(); return; } void TestProcInfoRead::Close() { // This will close handles opened within amdsmitst utility calls and call // amdsmi_shut_down(), so it should be done after other hsa cleanup TestBase::Close(); } static void dumpProcess(amdsmi_process_info_t *p) { assert(p != nullptr); std::cout << "\t** ProcessID: " << p->process_id << " "; std::cout << "PASID: " << p->pasid << " "; std::cout << std::endl; } void TestProcInfoRead::Run(void) { amdsmi_status_t err; uint32_t num_proc_found; uint32_t val_ui32; amdsmi_process_info_t *procs = nullptr; TestBase::Run(); if (setup_failed_) { std::cout << "** SetUp Failed for this test. Skipping.**" << std::endl; return; } uint32_t num_devices = num_monitor_devs(); err = amdsmi_get_gpu_compute_process_info(nullptr, &num_proc_found); if (err != AMDSMI_STATUS_SUCCESS) { if (err == AMDSMI_STATUS_NOT_SUPPORTED) { IF_VERB(STANDARD) { std::cout << "\t**Process info. read: Not supported on this machine" << std::endl; return; } } else { CHK_ERR_ASRT(err) } } else { IF_VERB(STANDARD) { std::cout << "\t** " << std::dec << num_proc_found << " GPU processes found" << std::endl; } } if (num_proc_found == 0) { return; } procs = new amdsmi_process_info_t[num_proc_found]; val_ui32 = num_proc_found; err = amdsmi_get_gpu_compute_process_info(procs, &val_ui32); if (err != AMDSMI_STATUS_SUCCESS) { if (err == AMDSMI_STATUS_INSUFFICIENT_SIZE) { IF_VERB(STANDARD) { std::cout << "\t** " << val_ui32 << " processes were read, but more became available that were unread." << std::endl; for (uint32_t i = 0; i < val_ui32; ++i) { dumpProcess(&procs[i]); } return; } } else { CHK_ERR_ASRT(err) } } else { IF_VERB(STANDARD) { std::cout << "\t** Processes currently using GPU: " << std::endl; for (uint32_t i = 0; i < val_ui32; ++i) { dumpProcess(&procs[i]); } } } // Reset to the number we actually read num_proc_found = val_ui32; if (num_proc_found) { // Allocate the max we expect to get uint32_t *dev_inds = new uint32_t[num_devices]; uint32_t amt_allocd = num_devices; for (uint32_t j = 0; j < num_proc_found; j++) { err = amdsmi_get_gpu_compute_process_gpus(procs[j].process_id, dev_inds, &amt_allocd); if (err == AMDSMI_STATUS_NOT_FOUND) { std::cout << "\t** Process " << procs[j].process_id << " is no longer present."; continue; } else { CHK_ERR_ASRT(err); ASSERT_LE(amt_allocd, num_devices); } std::cout << "\t** Process " << procs[j].process_id << " is using devices with indices: "; uint32_t i; if (amt_allocd > 0) { for (i = 0; i < amt_allocd - 1; ++i) { std::cout << dev_inds[i] << ", "; } std::cout << dev_inds[i]; } std::cout << std::endl; // Reset amt_allocd back to the amount acutally allocated amt_allocd = num_devices; } delete []dev_inds; amdsmi_process_info_t proc_info; for (uint32_t j = 0; j < num_proc_found; j++) { memset(&proc_info, 0x0, sizeof(amdsmi_process_info_t)); err = amdsmi_get_gpu_compute_process_info_by_pid(procs[j].process_id, &proc_info); if (err == AMDSMI_STATUS_NOT_FOUND) { std::cout << "\t** WARNING: amdsmi_get_gpu_compute_process_info() found process " << procs[j].process_id << ", but subsequently, " "amdsmi_get_gpu_compute_process_info_by_pid() did not" " find this same process." << std::endl; } else { CHK_ERR_ASRT(err) ASSERT_EQ(proc_info.process_id, procs[j].process_id); ASSERT_EQ(proc_info.pasid, procs[j].pasid); std::cout << "\t** Process ID: " << procs[j].process_id << " VRAM Usage: " << proc_info.vram_usage << " SDMA Usage: " << proc_info.sdma_usage << " Compute Unit Usage: " << proc_info.cu_occupancy << std::endl; } } } if (num_proc_found > 1) { amdsmi_process_info_t tmp_proc; val_ui32 = 1; err = amdsmi_get_gpu_compute_process_info(&tmp_proc, &val_ui32); if (err != AMDSMI_STATUS_INSUFFICIENT_SIZE) { std::cout << "Expected amdsmi_get_gpu_compute_process_info() to tell us" " there are more processes available, but instead go return code " << err << std::endl; } } delete []procs; }