/* Copyright (c) 2020 - present 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 "rdc/rdc.h" int main(int, char **) { rdc_status_t result; rdc_handle_t rdc_handle; bool standalone = false; char hostIpAddress[] = {"127.0.0.1:50051"}; char group_name[] = {"group1"}; char field_group_name[] = {"fieldgroup1"}; uint64_t since_timestamp = 0; uint64_t next_timestamp = 0; uint64_t start_timestamp = 0; uint32_t count = 0; // Select the embedded mode and standalone mode dynamically. std::cout << "Start rdci in: \n"; std::cout << "0 - Embedded mode \n"; std::cout << "1 - Standalone mode \n"; while (!(std::cin >> standalone)) { std::cout << "Invalid input.\n"; std::cin.clear(); std::cin.ignore(); } std::cout << std::endl; std::cout << (standalone? "Standalone mode selected.\n":"Embedded mode selected.\n"); // Init the rdc result = rdc_init(0); if (result != RDC_ST_OK) { std::cout << "Error initializing RDC. Return: " << rdc_status_string(result) << std::endl; goto cleanup; } else { std::cout << "RDC Initialized.\n"; } if (standalone) { // standalone result = rdc_connect(hostIpAddress, &rdc_handle, nullptr, nullptr, nullptr); if ( result != RDC_ST_OK ) { std::cout << "Error connecting to remote rdcd. Return: " << rdc_status_string(result) << std::endl; goto cleanup; } } else { // embedded result = rdc_start_embedded(RDC_OPERATION_MODE_AUTO, &rdc_handle); if (result != RDC_ST_OK) { std::cout << "Error starting embedded RDC engine. Return: " << rdc_status_string(result) << std::endl; goto cleanup; } } // Now we can use the same API for both standalone and embedded // Get the list of devices in the system uint32_t gpu_index_list[RDC_MAX_NUM_DEVICES]; result = rdc_device_get_all(rdc_handle, gpu_index_list, &count); if (result != RDC_ST_OK) { std::cout << "Error to find devices on the system. Return: " << rdc_status_string(result); goto cleanup; } if (count == 0) { std::cout << "No GPUs find on the sytem "; goto cleanup; } else { std::cout << count << " GPUs found in the system.\n"; } // Create the group rdc_gpu_group_t group_id; result = rdc_group_gpu_create(rdc_handle, RDC_GROUP_EMPTY, group_name, &group_id); if (result != RDC_ST_OK) { std::cout << "Error creating group. Return: " << rdc_status_string(result); goto cleanup; } std::cout << "Created the GPU group " << group_id << std::endl; // Add all GPUs to the group for (uint32_t i = 0; i < count; i++) { result = rdc_group_gpu_add(rdc_handle, group_id, gpu_index_list[i]); // Add GPU 0 if (result != RDC_ST_OK) { std::cout << "Error adding group. Return: " << rdc_status_string(result); goto cleanup; } rdc_device_attributes_t attribute; result = rdc_device_get_attributes(rdc_handle, gpu_index_list[i], &attribute); if (result != RDC_ST_OK) { std::cout << "Error get GPU attribute. Return: " << rdc_status_string(result); goto cleanup; } std::cout << "Add GPU " <(time(nullptr)-10)*1000; for (uint32_t gindex = 0; gindex < group_info.count; gindex++) { for (uint32_t findex = 0; findex < field_info.count; findex++) { since_timestamp = start_timestamp; while (true) { rdc_field_value value; result = rdc_field_get_value_since(rdc_handle, group_info.entity_ids[gindex] , field_info.field_ids[findex], since_timestamp, &next_timestamp, &value); if (result == RDC_ST_NOT_FOUND) { break; } if (result != RDC_ST_OK) { std::cout << "Error get history data. Return: " << rdc_status_string(result); goto cleanup; } std::cout << value.ts <<"\t" << group_info.entity_ids[gindex] << "\t\t" << std::left << std::setw(16) << field_id_string(value.field_id) << "\t" << value.value.l_int << std::endl; since_timestamp = next_timestamp; } // while } // for findex } // for gindex // Delete the field group and GPU group result = rdc_group_field_destroy(rdc_handle, field_group_id); if (result != RDC_ST_OK) { std::cout << "Error delete field group. Return: " << rdc_status_string(result); goto cleanup; } std::cout << "Deleted the field group " << field_group_id << std::endl; result = rdc_group_gpu_destroy(rdc_handle, group_id); if (result != RDC_ST_OK) { std::cout << "Error delete GPU group. Return: " << rdc_status_string(result); goto cleanup; } std::cout << "Deleted the GPU group " << group_id << std::endl; // Cleanup consists of shutting down RDC. cleanup: std::cout << "Cleaning up.\n"; if (standalone) rdc_disconnect(rdc_handle); else rdc_stop_embedded(rdc_handle); rdc_shutdown(); return result; }