#!/usr/bin/env python3 # # Copyright (C) Advanced Micro Devices. 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. import sys import amdsmi.amdsmi_wrapper sys.path.append("/opt/rocm/libexec/amdsmi_cli/") try: import amdsmi except ImportError: raise ImportError("Could not import /opt/rocm/libexec/amdsmi_cli/amdsmi_cli.py") import unittest import threading import multiprocessing from datetime import datetime # Note: amdsmi_status_code_to_string is not tested due to the nature and functionality of the AMDSMI Python wrapper. # The function is to be tested in the future after the wrapper is updated to return status codes after API calls. def handle_exceptions(func): """Exposes, silences, and logs AMD SMI exceptions to users what exception was raised. params: func: test function(s) that use decorator to expose AMD SMI exceptions return: On success - original function is returned On failure - silences error and prints to user what exception was caught """ def wrapper(*args, **kwargs): try: return func(*args, **kwargs) except amdsmi.AmdSmiRetryException as e: print("**** [ERROR] | Test: " + str(func.__name__) + " | Caught AmdSmiRetryException: {}".format(e)) amdsmi.amdsmi_shut_down() pass except amdsmi.AmdSmiTimeoutException as e: print("**** [ERROR] | Test: " + str(func.__name__) + " | Caught AmdSmiTimeoutException: {}".format(e)) amdsmi.amdsmi_shut_down() pass except amdsmi.AmdSmiLibraryException as e: print("**** [ERROR] | Test: " + str(func.__name__) + " | Caught AmdSmiLibraryException: {}".format(e)) amdsmi.amdsmi_shut_down() pass except Exception as e: print("**** [ERROR] | Test: " + str(func.__name__) + " | Caught unknown exception: {}".format(e)) amdsmi.amdsmi_shut_down() pass return wrapper class TestAmdSmiInit(unittest.TestCase): @handle_exceptions def test_init(self): amdsmi.amdsmi_init() amdsmi.amdsmi_shut_down() class TestAmdSmiPythonInterface(unittest.TestCase): @handle_exceptions def setUp(self): amdsmi.amdsmi_init() @handle_exceptions def tearDown(self): amdsmi.amdsmi_shut_down() def test_asic_kfd_info(self): self.setUp() processors = amdsmi.amdsmi_get_processor_handles() self.assertGreaterEqual(len(processors), 1) self.assertLessEqual(len(processors), 32) for i in range(0, len(processors)): bdf = amdsmi.amdsmi_get_gpu_device_bdf(processors[i]) print("\n\n###Test Processor {}, bdf: {}".format(i, bdf)) print("\n###Test amdsmi_get_gpu_asic_info \n") asic_info = amdsmi.amdsmi_get_gpu_asic_info(processors[i]) print(" asic_info['market_name'] is: {}".format( asic_info['market_name'])) print(" asic_info['vendor_id'] is: {}".format( asic_info['vendor_id'])) print(" asic_info['vendor_name'] is: {}".format( asic_info['vendor_name'])) print(" asic_info['device_id'] is: {}".format( asic_info['device_id'])) print(" asic_info['rev_id'] is: {}".format( asic_info['rev_id'])) print(" asic_info['asic_serial'] is: {}".format( asic_info['asic_serial'])) print(" asic_info['oam_id'] is: {}".format( asic_info['oam_id'])) print(" asic_info['target_graphics_version'] is: {}".format( asic_info['target_graphics_version'])) print(" asic_info['num_compute_units'] is: {}".format( asic_info['num_compute_units'])) print("\n###Test amdsmi_get_gpu_kfd_info \n") kfd_info = amdsmi.amdsmi_get_gpu_kfd_info(processors[i]) print(" kfd_info['kfd_id'] is: {}".format( kfd_info['kfd_id'])) print(" kfd_info['node_id'] is: {}".format( kfd_info['node_id'])) print(" kfd_info['current_partition_id'] is: {}\n".format( kfd_info['current_partition_id'])) print() self.tearDown() # amdsmi_get_gpu_bad_page_info is not supported in Navi2x, Navi3x @handle_exceptions def test_bad_page_info(self): self.setUp() processors = amdsmi.amdsmi_get_processor_handles() self.assertGreaterEqual(len(processors), 1) self.assertLessEqual(len(processors), 32) for i in range(0, len(processors)): bdf = amdsmi.amdsmi_get_gpu_device_bdf(processors[i]) print("\n\n###Test Processor {}, bdf: {}".format(i, bdf)) processor = amdsmi.amdsmi_get_processor_handle_from_bdf(bdf) print("\n###Test amdsmi_get_gpu_bad_page_info \n") bad_page_info = amdsmi.amdsmi_get_gpu_bad_page_info(processors[i]) print("bad_page_info: " + str(bad_page_info)) print("Number of bad pages: {}".format(len(bad_page_info))) j = 0 for table_record in bad_page_info: print("\ntable_record[\"value\"]" + str(table_record["value"])) print("Page: {}".format(j)) print("Page Address: " + str(table_record["page_address"])) print("Page Size: " + str(table_record["page_size"])) print("Status: " + str(table_record["status"])) print() j += 1 print() self.tearDown() def test_bdf_device_id(self): self.setUp() processors = amdsmi.amdsmi_get_processor_handles() self.assertGreaterEqual(len(processors), 1) self.assertLessEqual(len(processors), 32) for i in range(0, len(processors)): bdf = amdsmi.amdsmi_get_gpu_device_bdf(processors[i]) print("\n\n###Test Processor {}, bdf: {}".format(i, bdf)) print("\n###Test amdsmi_get_processor_handle_from_bdf \n") processor = amdsmi.amdsmi_get_processor_handle_from_bdf(bdf) print("\n###Test amdsmi_get_gpu_vbios_info \n") vbios_info = amdsmi.amdsmi_get_gpu_vbios_info(processor) print(" vbios_info['part_number'] is: {}".format( vbios_info['part_number'])) print(" vbios_info['build_date'] is: {}".format( vbios_info['build_date'])) print(" vbios_info['version'] is: {}".format( vbios_info['version'])) print(" vbios_info['name'] is: {}".format( vbios_info['name'])) print("\n###Test amdsmi_get_gpu_device_uuid \n") uuid = amdsmi.amdsmi_get_gpu_device_uuid(processor) print(" uuid is: {}".format(uuid)) print() self.tearDown() def test_board_info(self): self.setUp() processors = amdsmi.amdsmi_get_processor_handles() self.assertGreaterEqual(len(processors), 1) self.assertLessEqual(len(processors), 32) for i in range(0, len(processors)): bdf = amdsmi.amdsmi_get_gpu_device_bdf(processors[i]) print("\n\n###Test Processor {}, bdf: {}".format(i, bdf)) print("\n###Test amdsmi_get_gpu_board_info \n") board_info = amdsmi.amdsmi_get_gpu_board_info(processors[i]) print(" board_info['model_number'] is: {}".format( board_info['model_number'])) print(" board_info['product_serial'] is: {}".format( board_info['product_serial'])) print(" board_info['fru_id'] is: {}".format( board_info['fru_id'])) print(" board_info['manufacturer_name'] is: {}".format( board_info['manufacturer_name'])) print(" board_info['product_name'] is: {}".format( board_info['product_name'])) print() self.tearDown() def test_clock_frequency(self): self.setUp() processors = amdsmi.amdsmi_get_processor_handles() self.assertGreaterEqual(len(processors), 1) self.assertLessEqual(len(processors), 32) for i in range(0, len(processors)): bdf = amdsmi.amdsmi_get_gpu_device_bdf(processors[i]) print("\n\n###Test Processor {}, bdf: {}".format(i, bdf)) print("\n###Test amdsmi_get_clk_freq \n") clock_frequency = amdsmi.amdsmi_get_clk_freq( processors[i], amdsmi.AmdSmiClkType.SYS) print(" SYS clock_frequency['num_supported']: {}".format( clock_frequency['num_supported'])) print(" SYS clock_frequency['current']: {}".format( clock_frequency['current'])) print(" SYS clock_frequency['frequency']: {}".format( clock_frequency['frequency'])) clock_frequency = amdsmi.amdsmi_get_clk_freq( processors[i], amdsmi.AmdSmiClkType.DF) print(" DF clock_frequency['num_supported']: {}".format( clock_frequency['num_supported'])) print(" DF clock_frequency['current']: {}".format( clock_frequency['current'])) print(" DF clock_frequency['frequency']: {}".format( clock_frequency['frequency'])) print() self.tearDown() # amdsmi_get_clk_freq with AmdSmiClkType.DCEF is not supported in MI210, MI300A @handle_exceptions def test_clock_frequency_DCEF(self): self.setUp() processors = amdsmi.amdsmi_get_processor_handles() self.assertGreaterEqual(len(processors), 1) self.assertLessEqual(len(processors), 32) for i in range(0, len(processors)): bdf = amdsmi.amdsmi_get_gpu_device_bdf(processors[i]) print("\n\n###Test Processor {}, bdf: {}".format(i, bdf)) print("\n###Test amdsmi_get_clk_freq \n") clock_frequency = amdsmi.amdsmi_get_clk_freq( processors[i], amdsmi.AmdSmiClkType.DCEF) print(" DCEF clock_frequency['num_supported']: {}".format( clock_frequency['num_supported'])) print(" DCEF clock_frequency['current']: {}".format( clock_frequency['current'])) print(" DCEF clock_frequency['frequency']: {}".format( clock_frequency['frequency'])) print() self.tearDown() def test_clock_info(self): self.setUp() processors = amdsmi.amdsmi_get_processor_handles() self.assertGreaterEqual(len(processors), 1) self.assertLessEqual(len(processors), 32) for i in range(0, len(processors)): bdf = amdsmi.amdsmi_get_gpu_device_bdf(processors[i]) print("\n\n###Test Processor {}, bdf: {}".format(i, bdf)) print("\n###Test amdsmi_get_clock_info \n") clock_measure = amdsmi.amdsmi_get_clock_info( processors[i], amdsmi.AmdSmiClkType.GFX) print(" Current clock for domain GFX is: {}".format( clock_measure['clk'])) print(" Max clock for domain GFX is: {}".format( clock_measure['max_clk'])) print(" Min clock for domain GFX is: {}".format( clock_measure['min_clk'])) print(" Is GFX clock locked: {}".format( clock_measure['clk_locked'])) print(" Is GFX clock in deep sleep: {}".format( clock_measure['clk_deep_sleep'])) clock_measure = amdsmi.amdsmi_get_clock_info( processors[i], amdsmi.AmdSmiClkType.MEM) print(" Current clock for domain MEM is: {}".format( clock_measure['clk'])) print(" Max clock for domain MEM is: {}".format( clock_measure['max_clk'])) print(" Min clock for domain MEM is: {}".format( clock_measure['min_clk'])) print(" Is MEM clock in deep sleep: {}".format( clock_measure['clk_deep_sleep'])) print() self.tearDown() # AmdSmiClkType.VCLK0 and DCLK0 are not supported in MI210 @handle_exceptions def test_clock_info_vclk0_dclk0(self): self.setUp() processors = amdsmi.amdsmi_get_processor_handles() self.assertGreaterEqual(len(processors), 1) self.assertLessEqual(len(processors), 32) for i in range(0, len(processors)): bdf = amdsmi.amdsmi_get_gpu_device_bdf(processors[i]) print("\n\n###Test Processor {}, bdf: {}".format(i, bdf)) print("\n###Test amdsmi_get_clock_info \n") clock_measure = amdsmi.amdsmi_get_clock_info( processors[i], amdsmi.AmdSmiClkType.VCLK0) print(" Current clock for domain VCLK0 is: {}".format( clock_measure['clk'])) print(" Max clock for domain VCLK0 is: {}".format( clock_measure['max_clk'])) print(" Min clock for domain VCLK0 is: {}".format( clock_measure['min_clk'])) print(" Is VCLK0 clock in deep sleep: {}".format( clock_measure['clk_deep_sleep'])) clock_measure = amdsmi.amdsmi_get_clock_info( processors[i], amdsmi.AmdSmiClkType.DCLK0) print(" Current clock for domain DCLK0 is: {}".format( clock_measure['clk'])) print(" Max clock for domain DCLK0 is: {}".format( clock_measure['max_clk'])) print(" Min clock for domain DCLK0 is: {}".format( clock_measure['min_clk'])) print(" Is DCLK0 clock in deep sleep: {}".format( clock_measure['clk_deep_sleep'])) print() self.tearDown() # AmdSmiClkType.VCLK1 and DCLK1 are not supported in MI210, MI300A, MI300X @handle_exceptions def test_clock_info_vclk1_dclk1(self): self.setUp() processors = amdsmi.amdsmi_get_processor_handles() self.assertGreaterEqual(len(processors), 1) self.assertLessEqual(len(processors), 32) for i in range(0, len(processors)): bdf = amdsmi.amdsmi_get_gpu_device_bdf(processors[i]) print("\n\n###Test Processor {}, bdf: {}".format(i, bdf)) print("\n###Test amdsmi_get_clock_info \n") clock_measure = amdsmi.amdsmi_get_clock_info( processors[i], amdsmi.AmdSmiClkType.VCLK1) print(" Current clock for domain VCLK1 is: {}".format( clock_measure['clk'])) print(" Max clock for domain VCLK1 is: {}".format( clock_measure['max_clk'])) print(" Min clock for domain VCLK1 is: {}".format( clock_measure['min_clk'])) print(" Is VCLK1 clock in deep sleep: {}".format( clock_measure['clk_deep_sleep'])) clock_measure = amdsmi.amdsmi_get_clock_info( processors[i], amdsmi.AmdSmiClkType.DCLK1) print(" Current clock for domain DCLK1 is: {}".format( clock_measure['clk'])) print(" Max clock for domain DCLK1 is: {}".format( clock_measure['max_clk'])) print(" Min clock for domain DCLK1 is: {}".format( clock_measure['min_clk'])) print(" Is DCLK1 clock in deep sleep: {}".format( clock_measure['clk_deep_sleep'])) print() self.tearDown() def test_driver_info(self): self.setUp() processors = amdsmi.amdsmi_get_processor_handles() self.assertGreaterEqual(len(processors), 1) self.assertLessEqual(len(processors), 32) for i in range(0, len(processors)): bdf = amdsmi.amdsmi_get_gpu_device_bdf(processors[i]) print("\n\n###Test Processor {}, bdf: {}".format(i, bdf)) print("\n###Test amdsmi_get_gpu_driver_info \n") driver_info = amdsmi.amdsmi_get_gpu_driver_info(processors[i]) print("Driver info: {}".format(driver_info)) print() self.tearDown() # amdsmi_get_gpu_ecc_count is not supported in Navi2x, Navi3x, MI210, MI300A @handle_exceptions def test_ecc_count_block(self): self.setUp() processors = amdsmi.amdsmi_get_processor_handles() self.assertGreaterEqual(len(processors), 1) self.assertLessEqual(len(processors), 32) gpu_blocks = { "INVALID": amdsmi.AmdSmiGpuBlock.INVALID, "UMC": amdsmi.AmdSmiGpuBlock.UMC, "SDMA": amdsmi.AmdSmiGpuBlock.SDMA, "GFX": amdsmi.AmdSmiGpuBlock.GFX, "MMHUB": amdsmi.AmdSmiGpuBlock.MMHUB, "ATHUB": amdsmi.AmdSmiGpuBlock.ATHUB, "PCIE_BIF": amdsmi.AmdSmiGpuBlock.PCIE_BIF, "HDP": amdsmi.AmdSmiGpuBlock.HDP, "XGMI_WAFL": amdsmi.AmdSmiGpuBlock.XGMI_WAFL, "DF": amdsmi.AmdSmiGpuBlock.DF, "SMN": amdsmi.AmdSmiGpuBlock.SMN, "SEM": amdsmi.AmdSmiGpuBlock.SEM, "MP0": amdsmi.AmdSmiGpuBlock.MP0, "MP1": amdsmi.AmdSmiGpuBlock.MP1, "FUSE": amdsmi.AmdSmiGpuBlock.FUSE, "MCA": amdsmi.AmdSmiGpuBlock.MCA, "VCN": amdsmi.AmdSmiGpuBlock.VCN, "JPEG": amdsmi.AmdSmiGpuBlock.JPEG, "IH": amdsmi.AmdSmiGpuBlock.IH, "MPIO": amdsmi.AmdSmiGpuBlock.MPIO, "RESERVED": amdsmi.AmdSmiGpuBlock.RESERVED } for i in range(0, len(processors)): bdf = amdsmi.amdsmi_get_gpu_device_bdf(processors[i]) print("\n\n###Test Processor {}, bdf: {}".format(i, bdf)) print("\n###Test amdsmi_get_gpu_ecc_count \n") for block_name, block_code in gpu_blocks.items(): ecc_count = amdsmi.amdsmi_get_gpu_ecc_count( processors[i], block_code) print(" Number of uncorrectable errors for {}: {}".format( block_name, ecc_count['uncorrectable_count'])) print(" Number of correctable errors for {}: {}".format( block_name, ecc_count['correctable_count'])) print(" Number of deferred errors for {}: {}".format( block_name, ecc_count['deferred_count'])) self.assertGreaterEqual(ecc_count['uncorrectable_count'], 0) self.assertGreaterEqual(ecc_count['correctable_count'], 0) self.assertGreaterEqual(ecc_count['deferred_count'], 0) print() print() self.tearDown() def test_ecc_count_total(self): self.setUp() processors = amdsmi.amdsmi_get_processor_handles() self.assertGreaterEqual(len(processors), 1) self.assertLessEqual(len(processors), 32) for i in range(0, len(processors)): bdf = amdsmi.amdsmi_get_gpu_device_bdf(processors[i]) print("\n\n###Test Processor {}, bdf: {}".format(i, bdf)) print("\n###Test amdsmi_get_gpu_total_ecc_count \n") ecc_info = amdsmi.amdsmi_get_gpu_total_ecc_count(processors[i]) print("Number of uncorrectable errors: {}".format( ecc_info['uncorrectable_count'])) print("Number of correctable errors: {}".format( ecc_info['correctable_count'])) print("Number of deferred errors: {}".format( ecc_info['deferred_count'])) self.assertGreaterEqual(ecc_info['uncorrectable_count'], 0) self.assertGreaterEqual(ecc_info['correctable_count'], 0) self.assertGreaterEqual(ecc_info['deferred_count'], 0) print() self.tearDown() def test_fw_info(self): self.setUp() processors = amdsmi.amdsmi_get_processor_handles() self.assertGreaterEqual(len(processors), 1) self.assertLessEqual(len(processors), 32) for i in range(0, len(processors)): bdf = amdsmi.amdsmi_get_gpu_device_bdf(processors[i]) print("\n\n###Test Processor {}, bdf: {}".format(i, bdf)) print("\n###Test amdsmi_get_fw_info \n") fw_info = amdsmi.amdsmi_get_fw_info(processors[i]) fw_num = len(fw_info['fw_list']) self.assertLessEqual(fw_num, len(amdsmi.AmdSmiFwBlock)) for j in range(0, fw_num): fw = fw_info['fw_list'][j] if fw['fw_version'] != 0: print(" FW name: {}".format( fw['fw_name'].name)) print(" FW version: {}".format( fw['fw_version'])) print() self.tearDown() def test_gpu_activity(self): self.setUp() processors = amdsmi.amdsmi_get_processor_handles() self.assertGreaterEqual(len(processors), 1) self.assertLessEqual(len(processors), 32) for i in range(0, len(processors)): bdf = amdsmi.amdsmi_get_gpu_device_bdf(processors[i]) print("\n\n###Test Processor {}, bdf: {}".format(i, bdf)) print("\n###Test amdsmi_get_gpu_activity \n") engine_usage = amdsmi.amdsmi_get_gpu_activity(processors[i]) print(" engine_usage['gfx_activity'] is: {} %".format( engine_usage['gfx_activity'])) print(" engine_usage['umc_activity'] is: {} %".format( engine_usage['umc_activity'])) print(" engine_usage['mm_activity'] is: {} %".format( engine_usage['mm_activity'])) print() self.tearDown() def test_memory_usage(self): self.setUp() processors = amdsmi.amdsmi_get_processor_handles() self.assertGreaterEqual(len(processors), 1) self.assertLessEqual(len(processors), 32) for i in range(0, len(processors)): bdf = amdsmi.amdsmi_get_gpu_device_bdf(processors[i]) print("\n\n###Test Processor {}, bdf: {}".format(i, bdf)) print("\n###Test amdsmi_get_gpu_memory_usage \n") memory_usage = amdsmi.amdsmi_get_gpu_memory_usage( processors[i], amdsmi.AmdSmiMemoryType.VRAM) print(" memory_usage for VRAM is: {}".format(memory_usage)) memory_usage = amdsmi.amdsmi_get_gpu_memory_usage( processors[i], amdsmi.AmdSmiMemoryType.VIS_VRAM) print(" memory_usage for VIS_VRAM is: {}".format(memory_usage)) memory_usage = amdsmi.amdsmi_get_gpu_memory_usage( processors[i], amdsmi.AmdSmiMemoryType.GTT) print(" memory_usage for GTT is: {}".format(memory_usage)) print() self.tearDown() def test_pcie_info(self): self.setUp() processors = amdsmi.amdsmi_get_processor_handles() self.assertGreaterEqual(len(processors), 1) self.assertLessEqual(len(processors), 32) for i in range(0, len(processors)): bdf = amdsmi.amdsmi_get_gpu_device_bdf(processors[i]) print("\n\n###Test Processor {}, bdf: {}".format(i, bdf)) print("\n###Test amdsmi_get_pcie_info \n") pcie_info = amdsmi.amdsmi_get_pcie_info(processors[i]) print(" pcie_info['pcie_metric']['pcie_width'] is: {}".format( pcie_info['pcie_metric']['pcie_width'])) print(" pcie_info['pcie_static']['max_pcie_width'] is: {} ".format( pcie_info['pcie_static']['max_pcie_width'])) print(" pcie_info['pcie_metric']['pcie_speed'] is: {} MT/s".format( pcie_info['pcie_metric']['pcie_speed'])) print(" pcie_info['pcie_static']['max_pcie_speed'] is: {} ".format( pcie_info['pcie_static']['max_pcie_speed'])) print(" pcie_info['pcie_static']['pcie_interface_version'] is: {}".format( pcie_info['pcie_static']['pcie_interface_version'])) print(" pcie_info['pcie_static']['slot_type'] is: {}".format( pcie_info['pcie_static']['slot_type'])) print(" pcie_info['pcie_metric']['pcie_replay_count'] is: {}".format( pcie_info['pcie_metric']['pcie_replay_count'])) print(" pcie_info['pcie_metric']['pcie_bandwidth'] is: {}".format( pcie_info['pcie_metric']['pcie_bandwidth'])) print(" pcie_info['pcie_metric']['pcie_l0_to_recovery_count'] is: {}".format( pcie_info['pcie_metric']['pcie_l0_to_recovery_count'])) print(" pcie_info['pcie_metric']['pcie_replay_roll_over_count'] is: {}".format( pcie_info['pcie_metric']['pcie_replay_roll_over_count'])) print(" pcie_info['pcie_metric']['pcie_nak_sent_count'] is: {}".format( pcie_info['pcie_metric']['pcie_nak_sent_count'])) print(" pcie_info['pcie_metric']['pcie_nak_received_count'] is: {}".format( pcie_info['pcie_metric']['pcie_nak_received_count'])) print(" pcie_info['pcie_metric']['pcie_lc_perf_other_end_recovery_count'] is: {}".format( pcie_info['pcie_metric']['pcie_lc_perf_other_end_recovery_count'])) print() self.tearDown() def test_power_info(self): self.setUp() processors = amdsmi.amdsmi_get_processor_handles() self.assertGreaterEqual(len(processors), 1) self.assertLessEqual(len(processors), 32) for i in range(0, len(processors)): bdf = amdsmi.amdsmi_get_gpu_device_bdf(processors[i]) print("\n\n###Test Processor {}, bdf: {}".format(i, bdf)) print("\n###Test amdsmi_get_power_info \n") power_info = amdsmi.amdsmi_get_power_info(processors[i]) print(" power_info['current_socket_power'] is: {}".format( power_info['current_socket_power'])) print(" power_info['average_socket_power'] is: {}".format( power_info['average_socket_power'])) print(" power_info['gfx_voltage'] is: {}".format( power_info['gfx_voltage'])) print(" power_info['soc_voltage'] is: {}".format( power_info['soc_voltage'])) print(" power_info['mem_voltage'] is: {}".format( power_info['mem_voltage'])) print(" power_info['power_limit'] is: {}".format( power_info['power_limit'])) print("\n###Test amdsmi_get_power_cap_info \n") power_cap_info = amdsmi.amdsmi_get_power_cap_info(processors[i]) print(" power_info['dpm_cap'] is: {}".format( power_cap_info['dpm_cap'])) print(" power_info['power_cap'] is: {}".format( power_cap_info['power_cap'])) print("\n###Test amdsmi_is_gpu_power_management_enabled \n") is_power_management_enabled = amdsmi.amdsmi_is_gpu_power_management_enabled(processors[i]) print(" Power management enabled: {}".format( is_power_management_enabled)) print() self.tearDown() def test_process_list(self): self.setUp() processors = amdsmi.amdsmi_get_processor_handles() self.assertGreaterEqual(len(processors), 1) self.assertLessEqual(len(processors), 32) for i in range(0, len(processors)): bdf = amdsmi.amdsmi_get_gpu_device_bdf(processors[i]) print("\n\n###Test Processor {}, bdf: {}".format(i, bdf)) print("\n###Test amdsmi_get_gpu_process_list \n") process_list = amdsmi.amdsmi_get_gpu_process_list(processors[i]) print(" Process list: {}".format(process_list)) print() self.tearDown() def test_processor_type(self): self.setUp() processors = amdsmi.amdsmi_get_processor_handles() self.assertGreaterEqual(len(processors), 1) self.assertLessEqual(len(processors), 32) for i in range(0, len(processors)): bdf = amdsmi.amdsmi_get_gpu_device_bdf(processors[i]) print("\n\n###Test Processor {}, bdf: {}".format(i, bdf)) print("\n###Test amdsmi_get_processor_type \n") processor_type = amdsmi.amdsmi_get_processor_type(processors[i]) print(" Processor type is: {}".format(processor_type['processor_type'])) print() self.tearDown() # amdsmi_get_gpu_ras_block_features_enabled is not supported in Navi2x, Navi3x @handle_exceptions def test_ras_block_features_enabled(self): self.setUp() processors = amdsmi.amdsmi_get_processor_handles() self.assertGreaterEqual(len(processors), 1) self.assertLessEqual(len(processors), 32) for i in range(0, len(processors)): bdf = amdsmi.amdsmi_get_gpu_device_bdf(processors[i]) print("\n\n###Test Processor {}, bdf: {}".format(i, bdf)) print("\n###Test amdsmi_get_gpu_ras_block_features_enabled \n") ras_enabled = amdsmi.amdsmi_get_gpu_ras_block_features_enabled(processors[i]) for j in range(0, len(ras_enabled)): print(" RAS status for {} is: {}".format(ras_enabled[j]['block'], ras_enabled[j]['status'])) print() self.tearDown() # amdsmi_get_gpu_ras_feature_info is not supported in Navi2x, Navi3x @handle_exceptions def test_ras_feature_info(self): self.setUp() processors = amdsmi.amdsmi_get_processor_handles() self.assertGreaterEqual(len(processors), 1) self.assertLessEqual(len(processors), 32) for i in range(0, len(processors)): bdf = amdsmi.amdsmi_get_gpu_device_bdf(processors[i]) print("\n\n###Test Processor {}, bdf: {}".format(i, bdf)) print("\n###Test amdsmi_get_gpu_ras_feature_info \n") ras_feature = amdsmi.amdsmi_get_gpu_ras_feature_info(processors[i]) if ras_feature != None: print("RAS eeprom version: {}".format(ras_feature['eeprom_version'])) print("RAS parity schema: {}".format(ras_feature['parity_schema'])) print("RAS single bit schema: {}".format(ras_feature['single_bit_schema'])) print("RAS double bit schema: {}".format(ras_feature['double_bit_schema'])) print("Poisoning supported: {}".format(ras_feature['poison_schema'])) print() self.tearDown() def test_socket_info(self): self.setUp() print("\n\n###Test amdsmi_get_socket_handles") sockets = amdsmi.amdsmi_get_socket_handles() for i in range(0, len(sockets)): print("\n\n###Test Socket {}".format(i)) print("\n###Test amdsmi_get_socket_info \n") socket_name = amdsmi.amdsmi_get_socket_info(sockets[i]) print(" Socket: {}".format(socket_name)) print() self.tearDown() def test_temperature_metric(self): self.setUp() processors = amdsmi.amdsmi_get_processor_handles() self.assertGreaterEqual(len(processors), 1) self.assertLessEqual(len(processors), 32) for i in range(0, len(processors)): bdf = amdsmi.amdsmi_get_gpu_device_bdf(processors[i]) print("\n\n###Test Processor {}, bdf: {}".format(i, bdf)) print("\n###Test amdsmi_get_temp_metric \n") temperature_measure = amdsmi.amdsmi_get_temp_metric( processors[i], amdsmi.AmdSmiTemperatureType.HOTSPOT, amdsmi.AmdSmiTemperatureMetric.CURRENT) print(" Current temperature for HOTSPOT is: {}".format( temperature_measure)) temperature_measure = amdsmi.amdsmi_get_temp_metric( processors[i], amdsmi.AmdSmiTemperatureType.VRAM, amdsmi.AmdSmiTemperatureMetric.CURRENT) print(" Current temperature for VRAM is: {}".format( temperature_measure)) print("\n###Test amdsmi_get_temp_metric \n") temperature_measure = amdsmi.amdsmi_get_temp_metric( processors[i], amdsmi.AmdSmiTemperatureType.HOTSPOT, amdsmi.AmdSmiTemperatureMetric.CRITICAL) print(" Limit (critical) temperature for HOTSPOT is: {}".format( temperature_measure)) temperature_measure = amdsmi.amdsmi_get_temp_metric( processors[i], amdsmi.AmdSmiTemperatureType.VRAM, amdsmi.AmdSmiTemperatureMetric.CRITICAL) print(" Limit (critical) temperature for VRAM is: {}".format( temperature_measure)) print("\n###Test amdsmi_get_temp_metric \n") temperature_measure = amdsmi.amdsmi_get_temp_metric( processors[i], amdsmi.AmdSmiTemperatureType.HOTSPOT, amdsmi.AmdSmiTemperatureMetric.EMERGENCY) print(" Shutdown (emergency) temperature for HOTSPOT is: {}".format( temperature_measure)) temperature_measure = amdsmi.amdsmi_get_temp_metric( processors[i], amdsmi.AmdSmiTemperatureType.VRAM, amdsmi.AmdSmiTemperatureMetric.EMERGENCY) print(" Shutdown (emergency) temperature for VRAM is: {}".format( temperature_measure)) print() self.tearDown() # AmdSmiTemperatureType.EDGE is not supported in MI300A, MI300X @handle_exceptions def test_temperature_metric_edge(self): self.setUp() processors = amdsmi.amdsmi_get_processor_handles() self.assertGreaterEqual(len(processors), 1) self.assertLessEqual(len(processors), 32) for i in range(0, len(processors)): bdf = amdsmi.amdsmi_get_gpu_device_bdf(processors[i]) print("\n\n###Test Processor {}, bdf: {}".format(i, bdf)) print("\n###Test amdsmi_get_temp_metric \n") temperature_measure = amdsmi.amdsmi_get_temp_metric( processors[i], amdsmi.AmdSmiTemperatureType.EDGE, amdsmi.AmdSmiTemperatureMetric.CURRENT) print(" Current temperature for EDGE is: {}".format( temperature_measure)) temperature_measure = amdsmi.amdsmi_get_temp_metric( processors[i], amdsmi.AmdSmiTemperatureType.EDGE, amdsmi.AmdSmiTemperatureMetric.CRITICAL) print(" Limit (critical) temperature for EDGE is: {}".format( temperature_measure)) temperature_measure = amdsmi.amdsmi_get_temp_metric( processors[i], amdsmi.AmdSmiTemperatureType.EDGE, amdsmi.AmdSmiTemperatureMetric.EMERGENCY) print(" Shutdown (emergency) temperature for EDGE is: {}".format( temperature_measure)) print() self.tearDown() def test_temperature_metric_plx(self): self.setUp() processors = amdsmi.amdsmi_get_processor_handles() self.assertGreaterEqual(len(processors), 1) self.assertLessEqual(len(processors), 32) for i in range(0, len(processors)): bdf = amdsmi.amdsmi_get_gpu_device_bdf(processors[i]) print("\n\n###Test Processor {}, bdf: {}".format(i, bdf)) print("\n###Test amdsmi_get_temp_metric \n") temperature_measure = amdsmi.amdsmi_get_temp_metric( processors[i], amdsmi.AmdSmiTemperatureType.PLX, amdsmi.AmdSmiTemperatureMetric.CURRENT) print(" Current temperature for PLX is: {}".format( temperature_measure)) temperature_measure = amdsmi.amdsmi_get_temp_metric( processors[i], amdsmi.AmdSmiTemperatureType.PLX, amdsmi.AmdSmiTemperatureMetric.CRITICAL) print(" Limit (critical) temperature for PLX is: {}".format( temperature_measure)) temperature_measure = amdsmi.amdsmi_get_temp_metric( processors[i], amdsmi.AmdSmiTemperatureType.PLX, amdsmi.AmdSmiTemperatureMetric.EMERGENCY) print(" Shutdown (emergency) temperature for PLX is: {}".format( temperature_measure)) print() self.tearDown() # AmdSmiTemperatureType.HBM_0, HBM_1, HBM_2, HBM_3 are not supported in Navi2x, Navi3x, MI210, MI300A @handle_exceptions def test_temperature_metric_hbm(self): self.setUp() processors = amdsmi.amdsmi_get_processor_handles() self.assertGreaterEqual(len(processors), 1) self.assertLessEqual(len(processors), 32) temp_types = { "HBM_0": amdsmi.AmdSmiTemperatureType.HBM_0, "HBM_1": amdsmi.AmdSmiTemperatureType.HBM_1, "HBM_2": amdsmi.AmdSmiTemperatureType.HBM_2, "HBM_3": amdsmi.AmdSmiTemperatureType.HBM_3, } for i in range(0, len(processors)): bdf = amdsmi.amdsmi_get_gpu_device_bdf(processors[i]) print("\n\n###Test Processor {}, bdf: {}".format(i, bdf)) print("\n###Test amdsmi_get_temp_metric \n") for temp_type_name, temp_type_code in temp_types.items(): temperature_measure = amdsmi.amdsmi_get_temp_metric( processors[i], temp_type_code, amdsmi.AmdSmiTemperatureMetric.CURRENT) print(" Current temperature for {} is: {}".format( temp_type_name, temperature_measure)) temperature_measure = amdsmi.amdsmi_get_temp_metric( processors[i], temp_type_code, amdsmi.AmdSmiTemperatureMetric.CRITICAL) print(" Limit (critical) temperature for {} is: {}".format( temp_type_name, temperature_measure)) temperature_measure = amdsmi.amdsmi_get_temp_metric( processors[i], temp_type_code, amdsmi.AmdSmiTemperatureMetric.EMERGENCY) print(" Shutdown (emergency) temperature for {} is: {}".format( temp_type_name, temperature_measure)) print() self.tearDown() def test_utilization_count(self): self.setUp() processors = amdsmi.amdsmi_get_processor_handles() self.assertGreaterEqual(len(processors), 1) self.assertLessEqual(len(processors), 32) for i in range(0, len(processors)): bdf = amdsmi.amdsmi_get_gpu_device_bdf(processors[i]) print("\n\n###Test Processor {}, bdf: {}".format(i, bdf)) print("\n###Test amdsmi_get_utilization_count \n") utilization_counter_types = [ amdsmi.AmdSmiUtilizationCounterType.COARSE_GRAIN_GFX_ACTIVITY, amdsmi.AmdSmiUtilizationCounterType.COARSE_GRAIN_MEM_ACTIVITY, amdsmi.AmdSmiUtilizationCounterType.COARSE_DECODER_ACTIVITY ] utilization_count = amdsmi.amdsmi_get_utilization_count( processors[i], utilization_counter_types) print(" Timestamp: {}".format( utilization_count[0]['timestamp'])) print(" Utilization count for {} is: {}".format( utilization_count[1]['type'], utilization_count[1]['value'])) print(" Utilization count for {} is: {}".format( utilization_count[2]['type'], utilization_count[2]['value'])) print(" Utilization count for {} is: {}".format( utilization_count[3]['type'], utilization_count[3]['value'])) self.assertLessEqual(len(processors), 32) print() utilization_counter_types = [ amdsmi.AmdSmiUtilizationCounterType.FINE_GRAIN_GFX_ACTIVITY, amdsmi.AmdSmiUtilizationCounterType.FINE_GRAIN_MEM_ACTIVITY, amdsmi.AmdSmiUtilizationCounterType.FINE_DECODER_ACTIVITY ] utilization_count = amdsmi.amdsmi_get_utilization_count( processors[i], utilization_counter_types) print(" Timestamp: {}".format( utilization_count[0]['timestamp'])) print(" Utilization count for {} is: {}".format( utilization_count[1]['type'], utilization_count[1]['value'])) print(" Utilization count for {} is: {}".format( utilization_count[2]['type'], utilization_count[2]['value'])) print(" Utilization count for {} is: {}".format( utilization_count[3]['type'], utilization_count[3]['value'])) print() self.tearDown() def test_vbios_info(self): self.setUp() processors = amdsmi.amdsmi_get_processor_handles() self.assertGreaterEqual(len(processors), 1) self.assertLessEqual(len(processors), 32) for i in range(0, len(processors)): bdf = amdsmi.amdsmi_get_gpu_device_bdf(processors[i]) print("\n\n###Test Processor {}, bdf: {}".format(i, bdf)) print("\n###Test amdsmi_get_gpu_vbios_info \n") vbios_info = amdsmi.amdsmi_get_gpu_vbios_info(processors[i]) print(" vbios_info['part_number'] is: {}".format( vbios_info['part_number'])) print(" vbios_info['build_date'] is: {}".format( vbios_info['build_date'])) print(" vbios_info['name'] is: {}".format( vbios_info['name'])) print(" vbios_info['version'] is: {}".format( vbios_info['version'])) print() self.tearDown() def test_vendor_name(self): self.setUp() processors = amdsmi.amdsmi_get_processor_handles() self.assertGreaterEqual(len(processors), 1) self.assertLessEqual(len(processors), 32) for i in range(0, len(processors)): bdf = amdsmi.amdsmi_get_gpu_device_bdf(processors[i]) print("\n\n###Test Processor {}, bdf: {}".format(i, bdf)) print("\n###Test amdsmi_get_gpu_vendor_name \n") vendor_name = amdsmi.amdsmi_get_gpu_vendor_name(processors[i]) print(" Vendor name is: {}".format(vendor_name)) print() self.tearDown() # @unittest.SkipTest @handle_exceptions def test_accelerator_partition_profile(self): self.setUp() processors = amdsmi.amdsmi_get_processor_handles() self.assertGreaterEqual(len(processors), 1) self.assertLessEqual(len(processors), 32) for i in range(0, len(processors)): bdf = amdsmi.amdsmi_get_gpu_device_bdf(processors[i]) print("\n\n###Test Processor {}, bdf: {}".format(i, bdf)) print("\n###Test amdsmi_get_gpu_accelerator_partition_profile \n") accelerator_partition = amdsmi.amdsmi_get_gpu_accelerator_partition_profile(processors[i]) print(" Current partition id: {}".format( accelerator_partition['partition_id'])) print() self.tearDown() # amdsmi_get_violation_status is only supported on MI300+ ASICs # We should expect a not supported status for Navi / MI100 / MI2x ASICs @handle_exceptions def test_get_violation_status(self): self.setUp() processors = amdsmi.amdsmi_get_processor_handles() self.assertGreaterEqual(len(processors), 1) self.assertLessEqual(len(processors), 32) for i in range(0, len(processors)): bdf = amdsmi.amdsmi_get_gpu_device_bdf(processors[i]) print("\n\n###Test Processor {}, bdf: {}".format(i, bdf)) print("\n###Test amdsmi_get_violation_status \n") violation_status = amdsmi.amdsmi_get_violation_status(processors[i]) print(" Reference Timestamp: {}".format( violation_status['reference_timestamp'])) print(" Violation Timestamp: {}".format( violation_status['violation_timestamp'])) print(" Current Prochot Thrm Accumulated (Count): {}".format( violation_status['acc_prochot_thrm'])) print(" Current PVIOL (acc_ppt_pwr) Accumulated (Count): {}".format( violation_status['acc_ppt_pwr'])) print(" Current TVIOL (acc_socket_thrm) Accumulated (Count): {}".format( violation_status['acc_socket_thrm'])) print(" Current VR_THRM Accumulated (Count): {}".format( violation_status['acc_vr_thrm'])) print(" Current HBM Thrm Accumulated (Count): {}".format( violation_status['acc_hbm_thrm'])) print(" Current GFX CLK Below Host Limit Accumulated (Count): {}".format( violation_status['acc_gfx_clk_below_host_limit'])) print(" Prochot Thrm Violation (%): {}".format( violation_status['per_prochot_thrm'])) print(" PVIOL (per_ppt_pwr) (%): {}".format( violation_status['per_ppt_pwr'])) print(" TVIOL (per_socket_thrm) (%): {}".format( violation_status['per_socket_thrm'])) print(" VR_THRM Violation (%): {}".format( violation_status['per_vr_thrm'])) print(" HBM Thrm Violation (%): {}".format( violation_status['per_hbm_thrm'])) print(" GFX CLK Below Host Limit Violation (%): {}".format( violation_status['per_gfx_clk_below_host_limit'])) print(" Prochot Thrm Violation (bool): {}".format( violation_status['active_prochot_thrm'])) print(" PVIOL (active_ppt_pwr) (bool): {}".format( violation_status['active_ppt_pwr'])) print(" TVIOL (active_socket_thrm) (bool): {}".format( violation_status['active_socket_thrm'])) print(" VR_THRM Violation (bool): {}".format( violation_status['active_vr_thrm'])) print(" HBM Thrm Violation (bool): {}".format( violation_status['active_hbm_thrm'])) print(" GFX CLK Below Host Limit Violation (bool): {}".format( violation_status['active_gfx_clk_below_host_limit'])) print() self.tearDown() # Add test for amdsmi_get_gpu_reg_table_info @handle_exceptions def test_gpu_reg_table_info(self): self.setUp() print("\n\n###Test amdsmi_get_gpu_reg_table_info") processors = amdsmi.amdsmi_get_processor_handles() for i in range(0, len(processors)): print("\n\n###Test Processor {}".format(i)) print("\n###Test amdsmi_get_gpu_reg_table_info \n") reg_table_info = amdsmi.amdsmi_get_gpu_reg_table_info(processors[i], amdsmi.amdsmi_interface.AmdSmiRegType.PCIE) print(" reg_table_info['reg_table'] is: {}".format( reg_table_info['reg_table'])) print() self.tearDown() # Add test for amdsmi_get_gpu_pm_metrics_info @handle_exceptions def test_gpu_pm_metrics_info(self): self.setUp() print("\n\n###Test amdsmi_get_gpu_pm_metrics_info") processors = amdsmi.amdsmi_get_processor_handles() for i in range(0, len(processors)): print("\n\n###Test Processor {}".format(i)) print("\n###Test amdsmi_get_gpu_pm_metrics_info \n") pm_metrics_info = amdsmi.amdsmi_get_gpu_pm_metrics_info(processors[i]) print(" pm_metrics_info['pm_metrics'] is: {}".format( pm_metrics_info['pm_metrics'])) print() self.tearDown() def test_walkthrough(self): print("\n\n#######################################################################") print("========> test_walkthrough start <========\n") self.test_asic_kfd_info() self.test_power_info() self.test_vbios_info() self.test_board_info() self.test_fw_info() self.test_driver_info() print("\n========> test_walkthrough end <========") print("#######################################################################\n") # Unstable on workstation cards # @handle_exceptions # def test_walkthrough_multiprocess(self): # print("\n\n========> test_walkthrough_multiprocess start <========\n") # processors = amdsmi.amdsmi_get_processor_handles() # self.assertGreaterEqual(len(processors), 1) # self.assertLessEqual(len(processors), 32) # p0 = multiprocessing.Process(target=walk_through, args=[self]) # p1 = multiprocessing.Process(target=walk_through, args=[self]) # p2 = multiprocessing.Process(target=walk_through, args=[self]) # p3 = multiprocessing.Process(target=walk_through, args=[self]) # p0.start() # p1.start() # p2.start() # p3.start() # p0.join() # p1.join() # p2.join() # p3.join() # print("\n========> test_walkthrough_multiprocess end <========\n") # Unstable on workstation cards # @handle_exceptions # def test_walkthrough_multithread(self): # print("\n\n========> test_walkthrough_multithread start <========\n") # processors = amdsmi.amdsmi_get_processor_handles() # self.assertGreaterEqual(len(processors), 1) # self.assertLessEqual(len(processors), 32) # t0 = threading.Thread(target=walk_through, args=[self]) # t1 = threading.Thread(target=walk_through, args=[self]) # t2 = threading.Thread(target=walk_through, args=[self]) # t3 = threading.Thread(target=walk_through, args=[self]) # t0.start() # t1.start() # t2.start() # t3.start() # t0.join() # t1.join() # t2.join() # t3.join() # print("\n========> test_walkthrough_multithread end <========\n") # # Unstable - do not run # @handle_exceptions # def test_z_gpureset_asicinfo_multithread(self): # def get_asic_info(processor): # print("\n###Test amdsmi_get_gpu_asic_info \n") # asic_info = amdsmi.amdsmi_get_gpu_asic_info(processor) # print(" asic_info['market_name'] is: {}".format( # asic_info['market_name'])) # print(" asic_info['vendor_id'] is: {}".format( # asic_info['vendor_id'])) # print(" asic_info['vendor_name'] is: {}".format( # asic_info['vendor_name'])) # print(" asic_info['device_id'] is: {}".format( # asic_info['device_id'])) # print(" asic_info['rev_id'] is: {}".format( # asic_info['rev_id'])) # print(" asic_info['asic_serial'] is: {}".format( # asic_info['asic_serial'])) # print(" asic_info['oam_id'] is: {}\n".format( # asic_info['oam_id'])) # def gpu_reset(processor): # print("\n###Test amdsmi_reset_gpu \n") # amdsmi.amdsmi_reset_gpu(processor) # print(" GPU reset completed.\n") # print("\n\n========> test_z_gpureset_asicinfo_multithread start <========\n") # processors = amdsmi.amdsmi_get_processor_handles() # self.assertGreaterEqual(len(processors), 1) # self.assertLessEqual(len(processors), 32) # for i in range(0, len(processors)): # bdf = amdsmi.amdsmi_get_gpu_device_bdf(processors[i]) # print("\n\n###Test Processor {}, bdf: {}".format(i, bdf)) # t0 = threading.Thread(target=get_asic_info, args=[processors[i]]) # t1 = threading.Thread(target=gpu_reset, args=[processors[i]]) # # t2 = threading.Thread(target=walk_through, args=[self]) # # t3 = threading.Thread(target=walk_through, args=[self]) # t0.start() # t1.start() # # t2.start() # # t3.start() # t0.join() # t1.join() # # t2.join() # # t3.join() # print("\n========> test_z_gpureset_asicinfo_multithread end <========\n") if __name__ == '__main__': unittest.main()