151c0b2f7Stbbdev /* 2b15aabb3Stbbdev Copyright (c) 2019-2021 Intel Corporation 351c0b2f7Stbbdev 451c0b2f7Stbbdev Licensed under the Apache License, Version 2.0 (the "License"); 551c0b2f7Stbbdev you may not use this file except in compliance with the License. 651c0b2f7Stbbdev You may obtain a copy of the License at 751c0b2f7Stbbdev 851c0b2f7Stbbdev http://www.apache.org/licenses/LICENSE-2.0 951c0b2f7Stbbdev 1051c0b2f7Stbbdev Unless required by applicable law or agreed to in writing, software 1151c0b2f7Stbbdev distributed under the License is distributed on an "AS IS" BASIS, 1251c0b2f7Stbbdev WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. 1351c0b2f7Stbbdev See the License for the specific language governing permissions and 1451c0b2f7Stbbdev limitations under the License. 1551c0b2f7Stbbdev */ 1651c0b2f7Stbbdev 17b15aabb3Stbbdev #include <vector> 18b15aabb3Stbbdev #include <mutex> 19b15aabb3Stbbdev 2051c0b2f7Stbbdev #include "../tbb/assert_impl.h" // Out-of-line TBB assertion handling routines are instantiated here. 2149e08aacStbbdev #include "oneapi/tbb/detail/_assert.h" 22*8827ea7dSLong Nguyen #include "oneapi/tbb/detail/_config.h" 2351c0b2f7Stbbdev 24478de5b1Stbbdev #if _MSC_VER && !__INTEL_COMPILER && !__clang__ 2551c0b2f7Stbbdev #pragma warning( push ) 2651c0b2f7Stbbdev #pragma warning( disable : 4100 ) 27478de5b1Stbbdev #elif _MSC_VER && __clang__ 28478de5b1Stbbdev #pragma GCC diagnostic push 29478de5b1Stbbdev #pragma GCC diagnostic ignored "-Wunused-parameter" 3051c0b2f7Stbbdev #endif 3151c0b2f7Stbbdev #include <hwloc.h> 32478de5b1Stbbdev #if _MSC_VER && !__INTEL_COMPILER && !__clang__ 3351c0b2f7Stbbdev #pragma warning( pop ) 34478de5b1Stbbdev #elif _MSC_VER && __clang__ 35478de5b1Stbbdev #pragma GCC diagnostic pop 3651c0b2f7Stbbdev #endif 3751c0b2f7Stbbdev 38e96dbf4bSIvan Kochin #define __TBBBIND_HWLOC_HYBRID_CPUS_INTERFACES_PRESENT (HWLOC_API_VERSION >= 0x20400) 39e96dbf4bSIvan Kochin #define __TBBBIND_HWLOC_TOPOLOGY_FLAG_RESTRICT_TO_CPUBINDING_PRESENT (HWLOC_API_VERSION >= 0x20500) 4051c0b2f7Stbbdev 4151c0b2f7Stbbdev // Most of hwloc calls returns negative exit code on error. 4251c0b2f7Stbbdev // This macro tracks error codes that are returned from the hwloc interfaces. 4351c0b2f7Stbbdev #define assertion_hwloc_wrapper(command, ...) \ 4451c0b2f7Stbbdev __TBB_ASSERT_EX( (command(__VA_ARGS__)) >= 0, "Error occurred during call to hwloc API."); 4551c0b2f7Stbbdev 4651c0b2f7Stbbdev namespace tbb { 4751c0b2f7Stbbdev namespace detail { 4851c0b2f7Stbbdev namespace r1 { 4951c0b2f7Stbbdev 5051c0b2f7Stbbdev //------------------------------------------------------------------------ 5151c0b2f7Stbbdev // Information about the machine's hardware TBB is happen to work on 5251c0b2f7Stbbdev //------------------------------------------------------------------------ 5351c0b2f7Stbbdev class platform_topology { 54b15aabb3Stbbdev friend class binding_handler; 5551c0b2f7Stbbdev 56b15aabb3Stbbdev // Common topology members 57b15aabb3Stbbdev hwloc_topology_t topology{nullptr}; 58b15aabb3Stbbdev hwloc_cpuset_t process_cpu_affinity_mask{nullptr}; 59b15aabb3Stbbdev hwloc_nodeset_t process_node_affinity_mask{nullptr}; 60b15aabb3Stbbdev std::size_t number_of_processors_groups{1}; 6151c0b2f7Stbbdev 62b15aabb3Stbbdev // NUMA API related topology members 63b15aabb3Stbbdev std::vector<hwloc_cpuset_t> numa_affinity_masks_list{}; 64b15aabb3Stbbdev std::vector<int> numa_indexes_list{}; 65b15aabb3Stbbdev int numa_nodes_count{0}; 66b15aabb3Stbbdev 67b15aabb3Stbbdev // Hybrid CPUs API related topology members 68b15aabb3Stbbdev std::vector<hwloc_cpuset_t> core_types_affinity_masks_list{}; 69b15aabb3Stbbdev std::vector<int> core_types_indexes_list{}; 7051c0b2f7Stbbdev 7151c0b2f7Stbbdev enum init_stages { uninitialized, 7251c0b2f7Stbbdev started, 7351c0b2f7Stbbdev topology_allocated, 7451c0b2f7Stbbdev topology_loaded, 7551c0b2f7Stbbdev topology_parsed } initialization_state; 7651c0b2f7Stbbdev 77b15aabb3Stbbdev // Binding threads that locate in another Windows Processor groups 7851c0b2f7Stbbdev // is allowed only if machine topology contains several Windows Processors groups 7951c0b2f7Stbbdev // and process affinity mask wasn`t limited manually (affinity mask cannot violates 8051c0b2f7Stbbdev // processors group boundaries). 81b15aabb3Stbbdev bool intergroup_binding_allowed(std::size_t groups_num) { return groups_num > 1; } 8251c0b2f7Stbbdev 83b15aabb3Stbbdev private: 84b15aabb3Stbbdev void topology_initialization(std::size_t groups_num) { 8551c0b2f7Stbbdev initialization_state = started; 8651c0b2f7Stbbdev 8751c0b2f7Stbbdev // Parse topology 8851c0b2f7Stbbdev if ( hwloc_topology_init( &topology ) == 0 ) { 8951c0b2f7Stbbdev initialization_state = topology_allocated; 90e96dbf4bSIvan Kochin #if __TBBBIND_HWLOC_TOPOLOGY_FLAG_RESTRICT_TO_CPUBINDING_PRESENT 91e96dbf4bSIvan Kochin if ( groups_num == 1 && 92e96dbf4bSIvan Kochin hwloc_topology_set_flags(topology, 93e96dbf4bSIvan Kochin HWLOC_TOPOLOGY_FLAG_IS_THISSYSTEM | 94e96dbf4bSIvan Kochin HWLOC_TOPOLOGY_FLAG_RESTRICT_TO_CPUBINDING 95e96dbf4bSIvan Kochin ) != 0 96e96dbf4bSIvan Kochin ) { 97e96dbf4bSIvan Kochin return; 98e96dbf4bSIvan Kochin } 99e96dbf4bSIvan Kochin #endif 10051c0b2f7Stbbdev if ( hwloc_topology_load( topology ) == 0 ) { 10151c0b2f7Stbbdev initialization_state = topology_loaded; 10251c0b2f7Stbbdev } 10351c0b2f7Stbbdev } 104b15aabb3Stbbdev if ( initialization_state != topology_loaded ) 10551c0b2f7Stbbdev return; 10651c0b2f7Stbbdev 10751c0b2f7Stbbdev // Getting process affinity mask 10851c0b2f7Stbbdev if ( intergroup_binding_allowed(groups_num) ) { 10951c0b2f7Stbbdev process_cpu_affinity_mask = hwloc_bitmap_dup(hwloc_topology_get_complete_cpuset (topology)); 11051c0b2f7Stbbdev process_node_affinity_mask = hwloc_bitmap_dup(hwloc_topology_get_complete_nodeset(topology)); 11151c0b2f7Stbbdev } else { 11251c0b2f7Stbbdev process_cpu_affinity_mask = hwloc_bitmap_alloc(); 11351c0b2f7Stbbdev process_node_affinity_mask = hwloc_bitmap_alloc(); 11451c0b2f7Stbbdev 11551c0b2f7Stbbdev assertion_hwloc_wrapper(hwloc_get_cpubind, topology, process_cpu_affinity_mask, 0); 11651c0b2f7Stbbdev hwloc_cpuset_to_nodeset(topology, process_cpu_affinity_mask, process_node_affinity_mask); 11751c0b2f7Stbbdev } 11851c0b2f7Stbbdev 119b15aabb3Stbbdev number_of_processors_groups = groups_num; 120b15aabb3Stbbdev } 121b15aabb3Stbbdev 122b15aabb3Stbbdev void numa_topology_parsing() { 123b15aabb3Stbbdev // Fill parameters with stubs if topology parsing is broken. 124b15aabb3Stbbdev if ( initialization_state != topology_loaded ) { 125b15aabb3Stbbdev numa_nodes_count = 1; 126b15aabb3Stbbdev numa_indexes_list.push_back(-1); 127b15aabb3Stbbdev return; 128b15aabb3Stbbdev } 129b15aabb3Stbbdev 13051c0b2f7Stbbdev // If system contains no NUMA nodes, HWLOC 1.11 returns an infinitely filled bitmap. 13151c0b2f7Stbbdev // hwloc_bitmap_weight() returns negative value for such bitmaps, so we use this check 13251c0b2f7Stbbdev // to change way of topology initialization. 13351c0b2f7Stbbdev numa_nodes_count = hwloc_bitmap_weight(process_node_affinity_mask); 13451c0b2f7Stbbdev if (numa_nodes_count <= 0) { 13551c0b2f7Stbbdev // numa_nodes_count may be empty if the process affinity mask is empty too (invalid case) 13651c0b2f7Stbbdev // or if some internal HWLOC error occurred. 13751c0b2f7Stbbdev // So we place -1 as index in this case. 13851c0b2f7Stbbdev numa_indexes_list.push_back(numa_nodes_count == 0 ? -1 : 0); 13951c0b2f7Stbbdev numa_nodes_count = 1; 14051c0b2f7Stbbdev 141b15aabb3Stbbdev numa_affinity_masks_list.push_back(hwloc_bitmap_dup(process_cpu_affinity_mask)); 142b15aabb3Stbbdev } else { 14351c0b2f7Stbbdev // Get NUMA logical indexes list 14451c0b2f7Stbbdev unsigned counter = 0; 14551c0b2f7Stbbdev int i = 0; 14651c0b2f7Stbbdev int max_numa_index = -1; 14751c0b2f7Stbbdev numa_indexes_list.resize(numa_nodes_count); 14851c0b2f7Stbbdev hwloc_obj_t node_buffer; 14951c0b2f7Stbbdev hwloc_bitmap_foreach_begin(i, process_node_affinity_mask) { 150e96dbf4bSIvan Kochin node_buffer = hwloc_get_numanode_obj_by_os_index(topology, i); 15151c0b2f7Stbbdev numa_indexes_list[counter] = static_cast<int>(node_buffer->logical_index); 15251c0b2f7Stbbdev 15351c0b2f7Stbbdev if ( numa_indexes_list[counter] > max_numa_index ) { 15451c0b2f7Stbbdev max_numa_index = numa_indexes_list[counter]; 15551c0b2f7Stbbdev } 15651c0b2f7Stbbdev 15751c0b2f7Stbbdev counter++; 15851c0b2f7Stbbdev } hwloc_bitmap_foreach_end(); 15951c0b2f7Stbbdev __TBB_ASSERT(max_numa_index >= 0, "Maximal NUMA index must not be negative"); 16051c0b2f7Stbbdev 16151c0b2f7Stbbdev // Fill concurrency and affinity masks lists 162b15aabb3Stbbdev numa_affinity_masks_list.resize(max_numa_index + 1); 16351c0b2f7Stbbdev int index = 0; 16451c0b2f7Stbbdev hwloc_bitmap_foreach_begin(i, process_node_affinity_mask) { 165e96dbf4bSIvan Kochin node_buffer = hwloc_get_numanode_obj_by_os_index(topology, i); 16651c0b2f7Stbbdev index = static_cast<int>(node_buffer->logical_index); 16751c0b2f7Stbbdev 168b15aabb3Stbbdev hwloc_cpuset_t& current_mask = numa_affinity_masks_list[index]; 16951c0b2f7Stbbdev current_mask = hwloc_bitmap_dup(node_buffer->cpuset); 17051c0b2f7Stbbdev 17151c0b2f7Stbbdev hwloc_bitmap_and(current_mask, current_mask, process_cpu_affinity_mask); 17251c0b2f7Stbbdev __TBB_ASSERT(!hwloc_bitmap_iszero(current_mask), "hwloc detected unavailable NUMA node"); 17351c0b2f7Stbbdev } hwloc_bitmap_foreach_end(); 174b15aabb3Stbbdev } 175b15aabb3Stbbdev } 176b15aabb3Stbbdev 177b15aabb3Stbbdev void core_types_topology_parsing() { 178b15aabb3Stbbdev // Fill parameters with stubs if topology parsing is broken. 179b15aabb3Stbbdev if ( initialization_state != topology_loaded ) { 180b15aabb3Stbbdev core_types_indexes_list.push_back(-1); 181b15aabb3Stbbdev return; 182b15aabb3Stbbdev } 183e96dbf4bSIvan Kochin #if __TBBBIND_HWLOC_HYBRID_CPUS_INTERFACES_PRESENT 184b15aabb3Stbbdev __TBB_ASSERT(hwloc_get_api_version() >= 0x20400, "Hybrid CPUs support interfaces required HWLOC >= 2.4"); 185b15aabb3Stbbdev // Parsing the hybrid CPU topology 186b15aabb3Stbbdev int core_types_number = hwloc_cpukinds_get_nr(topology, 0); 187b15aabb3Stbbdev bool core_types_parsing_broken = core_types_number <= 0; 188b15aabb3Stbbdev if (!core_types_parsing_broken) { 189b15aabb3Stbbdev core_types_affinity_masks_list.resize(core_types_number); 190b15aabb3Stbbdev int efficiency{-1}; 191b15aabb3Stbbdev 192b15aabb3Stbbdev for (int core_type = 0; core_type < core_types_number; ++core_type) { 193b15aabb3Stbbdev hwloc_cpuset_t& current_mask = core_types_affinity_masks_list[core_type]; 194b15aabb3Stbbdev current_mask = hwloc_bitmap_alloc(); 195b15aabb3Stbbdev 196b15aabb3Stbbdev if (!hwloc_cpukinds_get_info(topology, core_type, current_mask, &efficiency, nullptr, nullptr, 0) 197b15aabb3Stbbdev && efficiency >= 0 198b15aabb3Stbbdev ) { 199b15aabb3Stbbdev hwloc_bitmap_and(current_mask, current_mask, process_cpu_affinity_mask); 200b15aabb3Stbbdev 201b15aabb3Stbbdev if (hwloc_bitmap_weight(current_mask) > 0) { 202b15aabb3Stbbdev core_types_indexes_list.push_back(core_type); 203b15aabb3Stbbdev } 204b15aabb3Stbbdev __TBB_ASSERT(hwloc_bitmap_weight(current_mask) >= 0, "Infinivitely filled core type mask"); 205b15aabb3Stbbdev } else { 206b15aabb3Stbbdev core_types_parsing_broken = true; 207b15aabb3Stbbdev break; 208b15aabb3Stbbdev } 209b15aabb3Stbbdev } 210b15aabb3Stbbdev } 211e96dbf4bSIvan Kochin #else /*!__TBBBIND_HWLOC_HYBRID_CPUS_INTERFACES_PRESENT*/ 212b15aabb3Stbbdev bool core_types_parsing_broken{true}; 213e96dbf4bSIvan Kochin #endif /*__TBBBIND_HWLOC_HYBRID_CPUS_INTERFACES_PRESENT*/ 214b15aabb3Stbbdev 215b15aabb3Stbbdev if (core_types_parsing_broken) { 216b15aabb3Stbbdev for (auto& core_type_mask : core_types_affinity_masks_list) { 217b15aabb3Stbbdev hwloc_bitmap_free(core_type_mask); 218b15aabb3Stbbdev } 219b15aabb3Stbbdev core_types_affinity_masks_list.resize(1); 220b15aabb3Stbbdev core_types_indexes_list.resize(1); 221b15aabb3Stbbdev 222b15aabb3Stbbdev core_types_affinity_masks_list[0] = hwloc_bitmap_dup(process_cpu_affinity_mask); 223b15aabb3Stbbdev core_types_indexes_list[0] = -1; 224b15aabb3Stbbdev } 225b15aabb3Stbbdev } 226b15aabb3Stbbdev 227b15aabb3Stbbdev public: 228b15aabb3Stbbdev typedef hwloc_cpuset_t affinity_mask; 229b15aabb3Stbbdev typedef hwloc_const_cpuset_t const_affinity_mask; 230b15aabb3Stbbdev 231b15aabb3Stbbdev static platform_topology& instance() { 232b15aabb3Stbbdev static platform_topology topology; 233b15aabb3Stbbdev return topology; 234b15aabb3Stbbdev } 235b15aabb3Stbbdev 236b15aabb3Stbbdev bool is_topology_parsed() { return initialization_state == topology_parsed; } 237b15aabb3Stbbdev 238b15aabb3Stbbdev void initialize( std::size_t groups_num ) { 239b15aabb3Stbbdev if ( initialization_state != uninitialized ) 240b15aabb3Stbbdev return; 241b15aabb3Stbbdev 242b15aabb3Stbbdev topology_initialization(groups_num); 243b15aabb3Stbbdev numa_topology_parsing(); 244b15aabb3Stbbdev core_types_topology_parsing(); 245b15aabb3Stbbdev 246b15aabb3Stbbdev if (initialization_state == topology_loaded) 24751c0b2f7Stbbdev initialization_state = topology_parsed; 24851c0b2f7Stbbdev } 24951c0b2f7Stbbdev 25051c0b2f7Stbbdev ~platform_topology() { 25151c0b2f7Stbbdev if ( is_topology_parsed() ) { 252b15aabb3Stbbdev for (auto& numa_node_mask : numa_affinity_masks_list) { 253b15aabb3Stbbdev hwloc_bitmap_free(numa_node_mask); 25451c0b2f7Stbbdev } 255b15aabb3Stbbdev 256b15aabb3Stbbdev for (auto& core_type_mask : core_types_affinity_masks_list) { 257b15aabb3Stbbdev hwloc_bitmap_free(core_type_mask); 258b15aabb3Stbbdev } 259b15aabb3Stbbdev 26051c0b2f7Stbbdev hwloc_bitmap_free(process_node_affinity_mask); 26151c0b2f7Stbbdev hwloc_bitmap_free(process_cpu_affinity_mask); 26251c0b2f7Stbbdev } 26351c0b2f7Stbbdev 26451c0b2f7Stbbdev if ( initialization_state >= topology_allocated ) { 26551c0b2f7Stbbdev hwloc_topology_destroy(topology); 26651c0b2f7Stbbdev } 26751c0b2f7Stbbdev 26851c0b2f7Stbbdev initialization_state = uninitialized; 26951c0b2f7Stbbdev } 27051c0b2f7Stbbdev 271b15aabb3Stbbdev void fill_topology_information( 272b15aabb3Stbbdev int& _numa_nodes_count, int*& _numa_indexes_list, 273b15aabb3Stbbdev int& _core_types_count, int*& _core_types_indexes_list 274b15aabb3Stbbdev ) { 27551c0b2f7Stbbdev __TBB_ASSERT(is_topology_parsed(), "Trying to get access to uninitialized platform_topology"); 276b15aabb3Stbbdev _numa_nodes_count = numa_nodes_count; 277b15aabb3Stbbdev _numa_indexes_list = numa_indexes_list.data(); 278b15aabb3Stbbdev 279b15aabb3Stbbdev _core_types_count = (int)core_types_indexes_list.size(); 280b15aabb3Stbbdev _core_types_indexes_list = core_types_indexes_list.data(); 281b15aabb3Stbbdev } 282b15aabb3Stbbdev 283b15aabb3Stbbdev void fill_constraints_affinity_mask(affinity_mask input_mask, int numa_node_index, int core_type_index, int max_threads_per_core) { 284b15aabb3Stbbdev __TBB_ASSERT(is_topology_parsed(), "Trying to get access to uninitialized platform_topology"); 285b15aabb3Stbbdev __TBB_ASSERT(numa_node_index < (int)numa_affinity_masks_list.size(), "Wrong NUMA node id"); 286b15aabb3Stbbdev __TBB_ASSERT(core_type_index < (int)core_types_affinity_masks_list.size(), "Wrong core type id"); 287b15aabb3Stbbdev __TBB_ASSERT(max_threads_per_core == -1 || max_threads_per_core > 0, "Wrong max_threads_per_core"); 288b15aabb3Stbbdev 289b15aabb3Stbbdev hwloc_cpuset_t constraints_mask = hwloc_bitmap_alloc(); 290b15aabb3Stbbdev hwloc_cpuset_t core_mask = hwloc_bitmap_alloc(); 291b15aabb3Stbbdev 292b15aabb3Stbbdev hwloc_bitmap_copy(constraints_mask, process_cpu_affinity_mask); 293b15aabb3Stbbdev if (numa_node_index >= 0) { 294b15aabb3Stbbdev hwloc_bitmap_and(constraints_mask, constraints_mask, numa_affinity_masks_list[numa_node_index]); 295b15aabb3Stbbdev } 296b15aabb3Stbbdev if (core_type_index >= 0) { 297b15aabb3Stbbdev hwloc_bitmap_and(constraints_mask, constraints_mask, core_types_affinity_masks_list[core_type_index]); 298b15aabb3Stbbdev } 299b15aabb3Stbbdev if (max_threads_per_core > 0) { 300b15aabb3Stbbdev // clear input mask 301b15aabb3Stbbdev hwloc_bitmap_zero(input_mask); 302b15aabb3Stbbdev 303b15aabb3Stbbdev hwloc_obj_t current_core = nullptr; 304b15aabb3Stbbdev while ((current_core = hwloc_get_next_obj_by_type(topology, HWLOC_OBJ_CORE, current_core)) != nullptr) { 305b15aabb3Stbbdev hwloc_bitmap_and(core_mask, constraints_mask, current_core->cpuset); 306b15aabb3Stbbdev 307b15aabb3Stbbdev // fit the core mask to required bits number 308b15aabb3Stbbdev int current_threads_per_core = 0; 309b15aabb3Stbbdev for (int id = hwloc_bitmap_first(core_mask); id != -1; id = hwloc_bitmap_next(core_mask, id)) { 310b15aabb3Stbbdev if (++current_threads_per_core > max_threads_per_core) { 311b15aabb3Stbbdev hwloc_bitmap_clr(core_mask, id); 312b15aabb3Stbbdev } 313b15aabb3Stbbdev } 314b15aabb3Stbbdev 315b15aabb3Stbbdev hwloc_bitmap_or(input_mask, input_mask, core_mask); 316b15aabb3Stbbdev } 317b15aabb3Stbbdev } else { 318b15aabb3Stbbdev hwloc_bitmap_copy(input_mask, constraints_mask); 319b15aabb3Stbbdev } 320b15aabb3Stbbdev 321b15aabb3Stbbdev hwloc_bitmap_free(core_mask); 322b15aabb3Stbbdev hwloc_bitmap_free(constraints_mask); 323b15aabb3Stbbdev } 324b15aabb3Stbbdev 325b15aabb3Stbbdev void fit_num_threads_per_core(affinity_mask result_mask, affinity_mask current_mask, affinity_mask constraints_mask) { 326b15aabb3Stbbdev hwloc_bitmap_zero(result_mask); 327b15aabb3Stbbdev hwloc_obj_t current_core = nullptr; 328b15aabb3Stbbdev while ((current_core = hwloc_get_next_obj_by_type(topology, HWLOC_OBJ_CORE, current_core)) != nullptr) { 329b15aabb3Stbbdev if (hwloc_bitmap_intersects(current_mask, current_core->cpuset)) { 330b15aabb3Stbbdev hwloc_bitmap_or(result_mask, result_mask, current_core->cpuset); 331b15aabb3Stbbdev } 332b15aabb3Stbbdev } 333b15aabb3Stbbdev hwloc_bitmap_and(result_mask, result_mask, constraints_mask); 334b15aabb3Stbbdev } 335b15aabb3Stbbdev 336b15aabb3Stbbdev int get_default_concurrency(int numa_node_index, int core_type_index, int max_threads_per_core) { 337b15aabb3Stbbdev __TBB_ASSERT(is_topology_parsed(), "Trying to get access to uninitialized platform_topology"); 338b15aabb3Stbbdev 339b15aabb3Stbbdev hwloc_cpuset_t constraints_mask = hwloc_bitmap_alloc(); 340b15aabb3Stbbdev fill_constraints_affinity_mask(constraints_mask, numa_node_index, core_type_index, max_threads_per_core); 341b15aabb3Stbbdev 342b15aabb3Stbbdev int default_concurrency = hwloc_bitmap_weight(constraints_mask); 343b15aabb3Stbbdev hwloc_bitmap_free(constraints_mask); 344b15aabb3Stbbdev return default_concurrency; 34551c0b2f7Stbbdev } 34651c0b2f7Stbbdev 34751c0b2f7Stbbdev affinity_mask allocate_process_affinity_mask() { 34851c0b2f7Stbbdev __TBB_ASSERT(is_topology_parsed(), "Trying to get access to uninitialized platform_topology"); 34951c0b2f7Stbbdev return hwloc_bitmap_dup(process_cpu_affinity_mask); 35051c0b2f7Stbbdev } 35151c0b2f7Stbbdev 35251c0b2f7Stbbdev void free_affinity_mask( affinity_mask mask_to_free ) { 35351c0b2f7Stbbdev hwloc_bitmap_free(mask_to_free); // If bitmap is nullptr, no operation is performed. 35451c0b2f7Stbbdev } 35551c0b2f7Stbbdev 35651c0b2f7Stbbdev void store_current_affinity_mask( affinity_mask current_mask ) { 35751c0b2f7Stbbdev assertion_hwloc_wrapper(hwloc_get_cpubind, topology, current_mask, HWLOC_CPUBIND_THREAD); 35851c0b2f7Stbbdev 35951c0b2f7Stbbdev hwloc_bitmap_and(current_mask, current_mask, process_cpu_affinity_mask); 36051c0b2f7Stbbdev __TBB_ASSERT(!hwloc_bitmap_iszero(current_mask), 36151c0b2f7Stbbdev "Current affinity mask must intersects with process affinity mask"); 36251c0b2f7Stbbdev } 36351c0b2f7Stbbdev 364b15aabb3Stbbdev void set_affinity_mask( const_affinity_mask mask ) { 365b15aabb3Stbbdev if (hwloc_bitmap_weight(mask) > 0) { 366b15aabb3Stbbdev assertion_hwloc_wrapper(hwloc_set_cpubind, topology, mask, HWLOC_CPUBIND_THREAD); 36751c0b2f7Stbbdev } 36851c0b2f7Stbbdev } 36951c0b2f7Stbbdev }; 37051c0b2f7Stbbdev 37151c0b2f7Stbbdev class binding_handler { 37251c0b2f7Stbbdev // Following vector saves thread affinity mask on scheduler entry to return it to this thread 37351c0b2f7Stbbdev // on scheduler exit. 37451c0b2f7Stbbdev typedef std::vector<platform_topology::affinity_mask> affinity_masks_container; 37551c0b2f7Stbbdev affinity_masks_container affinity_backup; 376b15aabb3Stbbdev platform_topology::affinity_mask handler_affinity_mask; 377b15aabb3Stbbdev 378b15aabb3Stbbdev #if WIN32 379b15aabb3Stbbdev affinity_masks_container affinity_buffer; 380b15aabb3Stbbdev int my_numa_node_id; 381b15aabb3Stbbdev int my_core_type_id; 382b15aabb3Stbbdev int my_max_threads_per_core; 383b15aabb3Stbbdev #endif 38451c0b2f7Stbbdev 38551c0b2f7Stbbdev public: 386b15aabb3Stbbdev binding_handler( std::size_t size, int numa_node_id, int core_type_id, int max_threads_per_core ) 387b15aabb3Stbbdev : affinity_backup(size) 388b15aabb3Stbbdev #if WIN32 389b15aabb3Stbbdev , affinity_buffer(size) 390b15aabb3Stbbdev , my_numa_node_id(numa_node_id) 391b15aabb3Stbbdev , my_core_type_id(core_type_id) 392b15aabb3Stbbdev , my_max_threads_per_core(max_threads_per_core) 393b15aabb3Stbbdev #endif 394b15aabb3Stbbdev { 395b15aabb3Stbbdev for (std::size_t i = 0; i < size; ++i) { 396b15aabb3Stbbdev affinity_backup[i] = platform_topology::instance().allocate_process_affinity_mask(); 397b15aabb3Stbbdev #if WIN32 398b15aabb3Stbbdev affinity_buffer[i] = platform_topology::instance().allocate_process_affinity_mask(); 399b15aabb3Stbbdev #endif 40051c0b2f7Stbbdev } 401b15aabb3Stbbdev handler_affinity_mask = platform_topology::instance().allocate_process_affinity_mask(); 402b15aabb3Stbbdev platform_topology::instance().fill_constraints_affinity_mask 403b15aabb3Stbbdev (handler_affinity_mask, numa_node_id, core_type_id, max_threads_per_core); 40451c0b2f7Stbbdev } 40551c0b2f7Stbbdev 40651c0b2f7Stbbdev ~binding_handler() { 407b15aabb3Stbbdev for (std::size_t i = 0; i < affinity_backup.size(); ++i) { 408b15aabb3Stbbdev platform_topology::instance().free_affinity_mask(affinity_backup[i]); 409b15aabb3Stbbdev #if WIN32 410b15aabb3Stbbdev platform_topology::instance().free_affinity_mask(affinity_buffer[i]); 411b15aabb3Stbbdev #endif 41251c0b2f7Stbbdev } 413b15aabb3Stbbdev platform_topology::instance().free_affinity_mask(handler_affinity_mask); 41451c0b2f7Stbbdev } 41551c0b2f7Stbbdev 416b15aabb3Stbbdev void apply_affinity( unsigned slot_num ) { 417b15aabb3Stbbdev auto& topology = platform_topology::instance(); 41851c0b2f7Stbbdev __TBB_ASSERT(slot_num < affinity_backup.size(), 41951c0b2f7Stbbdev "The slot number is greater than the number of slots in the arena"); 420b15aabb3Stbbdev __TBB_ASSERT(topology.is_topology_parsed(), 42151c0b2f7Stbbdev "Trying to get access to uninitialized platform_topology"); 42251c0b2f7Stbbdev 423b15aabb3Stbbdev topology.store_current_affinity_mask(affinity_backup[slot_num]); 424b15aabb3Stbbdev 425b15aabb3Stbbdev #if WIN32 426b15aabb3Stbbdev // TBBBind supports only systems where NUMA nodes and core types do not cross the border 427b15aabb3Stbbdev // between several processor groups. So if a certain NUMA node or core type constraint 428b15aabb3Stbbdev // specified, then the constraints affinity mask will not cross the processor groups' border. 429b15aabb3Stbbdev 430b15aabb3Stbbdev // But if we have constraint based only on the max_threads_per_core setting, then the 431b15aabb3Stbbdev // constraints affinity mask does may cross the border between several processor groups 432b15aabb3Stbbdev // on machines with more then 64 hardware threads. That is why we need to use the special 433b15aabb3Stbbdev // function, which regulates the number of threads in the current threads mask. 434b15aabb3Stbbdev if (topology.number_of_processors_groups > 1 && my_max_threads_per_core != -1 && 435b15aabb3Stbbdev (my_numa_node_id == -1 || topology.numa_indexes_list.size() == 1) && 436b15aabb3Stbbdev (my_core_type_id == -1 || topology.core_types_indexes_list.size() == 1) 437b15aabb3Stbbdev ) { 438b15aabb3Stbbdev topology.fit_num_threads_per_core(affinity_buffer[slot_num], affinity_backup[slot_num], handler_affinity_mask); 439b15aabb3Stbbdev topology.set_affinity_mask(affinity_buffer[slot_num]); 440b15aabb3Stbbdev return; 441b15aabb3Stbbdev } 442b15aabb3Stbbdev #endif 443b15aabb3Stbbdev topology.set_affinity_mask(handler_affinity_mask); 44451c0b2f7Stbbdev } 44551c0b2f7Stbbdev 44651c0b2f7Stbbdev void restore_previous_affinity_mask( unsigned slot_num ) { 447b15aabb3Stbbdev auto& topology = platform_topology::instance(); 448b15aabb3Stbbdev __TBB_ASSERT(topology.is_topology_parsed(), 44951c0b2f7Stbbdev "Trying to get access to uninitialized platform_topology"); 450b15aabb3Stbbdev topology.set_affinity_mask(affinity_backup[slot_num]); 45151c0b2f7Stbbdev }; 45251c0b2f7Stbbdev 45351c0b2f7Stbbdev }; 45451c0b2f7Stbbdev 45551c0b2f7Stbbdev extern "C" { // exported to TBB interfaces 45651c0b2f7Stbbdev 457*8827ea7dSLong Nguyen TBBBIND_EXPORT void __TBB_internal_initialize_system_topology( 458b15aabb3Stbbdev std::size_t groups_num, 459b15aabb3Stbbdev int& numa_nodes_count, int*& numa_indexes_list, 460b15aabb3Stbbdev int& core_types_count, int*& core_types_indexes_list 461b15aabb3Stbbdev ) { 46251c0b2f7Stbbdev platform_topology::instance().initialize(groups_num); 463b15aabb3Stbbdev platform_topology::instance().fill_topology_information( 464b15aabb3Stbbdev numa_nodes_count, numa_indexes_list, 465b15aabb3Stbbdev core_types_count, core_types_indexes_list 466b15aabb3Stbbdev ); 46751c0b2f7Stbbdev } 46851c0b2f7Stbbdev 469*8827ea7dSLong Nguyen TBBBIND_EXPORT binding_handler* __TBB_internal_allocate_binding_handler(int number_of_slots, int numa_id, int core_type_id, int max_threads_per_core) { 470b15aabb3Stbbdev __TBB_ASSERT(number_of_slots > 0, "Trying to create numa handler for 0 threads."); 471b15aabb3Stbbdev return new binding_handler(number_of_slots, numa_id, core_type_id, max_threads_per_core); 47251c0b2f7Stbbdev } 47351c0b2f7Stbbdev 474*8827ea7dSLong Nguyen TBBBIND_EXPORT void __TBB_internal_deallocate_binding_handler(binding_handler* handler_ptr) { 47551c0b2f7Stbbdev __TBB_ASSERT(handler_ptr != nullptr, "Trying to deallocate nullptr pointer."); 47651c0b2f7Stbbdev delete handler_ptr; 47751c0b2f7Stbbdev } 47851c0b2f7Stbbdev 479*8827ea7dSLong Nguyen TBBBIND_EXPORT void __TBB_internal_apply_affinity(binding_handler* handler_ptr, int slot_num) { 48051c0b2f7Stbbdev __TBB_ASSERT(handler_ptr != nullptr, "Trying to get access to uninitialized metadata."); 481b15aabb3Stbbdev handler_ptr->apply_affinity(slot_num); 48251c0b2f7Stbbdev } 48351c0b2f7Stbbdev 484*8827ea7dSLong Nguyen TBBBIND_EXPORT void __TBB_internal_restore_affinity(binding_handler* handler_ptr, int slot_num) { 48551c0b2f7Stbbdev __TBB_ASSERT(handler_ptr != nullptr, "Trying to get access to uninitialized metadata."); 48651c0b2f7Stbbdev handler_ptr->restore_previous_affinity_mask(slot_num); 48751c0b2f7Stbbdev } 48851c0b2f7Stbbdev 489*8827ea7dSLong Nguyen TBBBIND_EXPORT int __TBB_internal_get_default_concurrency(int numa_id, int core_type_id, int max_threads_per_core) { 490b15aabb3Stbbdev return platform_topology::instance().get_default_concurrency(numa_id, core_type_id, max_threads_per_core); 491b15aabb3Stbbdev } 492b15aabb3Stbbdev 49351c0b2f7Stbbdev } // extern "C" 49451c0b2f7Stbbdev 49551c0b2f7Stbbdev } // namespace r1 49651c0b2f7Stbbdev } // namespace detail 49751c0b2f7Stbbdev } // namespace tbb 49851c0b2f7Stbbdev 49951c0b2f7Stbbdev #undef assertion_hwloc_wrapper 500