151c0b2f7Stbbdev /* 2b15aabb3Stbbdev Copyright (c) 2005-2021 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 1749e08aacStbbdev #include "oneapi/tbb/version.h" 1851c0b2f7Stbbdev 1949e08aacStbbdev #include "oneapi/tbb/detail/_exception.h" 2049e08aacStbbdev #include "oneapi/tbb/detail/_assert.h" 2149e08aacStbbdev #include "oneapi/tbb/detail/_utils.h" 22*8827ea7dSLong Nguyen #include "oneapi/tbb/tbb_allocator.h" // Is this OK? 23*8827ea7dSLong Nguyen #include "oneapi/tbb/cache_aligned_allocator.h" 2451c0b2f7Stbbdev 2551c0b2f7Stbbdev #include "dynamic_link.h" 2651c0b2f7Stbbdev #include "misc.h" 2751c0b2f7Stbbdev 2851c0b2f7Stbbdev #include <cstdlib> 2951c0b2f7Stbbdev 3051c0b2f7Stbbdev #if _WIN32 || _WIN64 3151c0b2f7Stbbdev #include <Windows.h> 3251c0b2f7Stbbdev #else 3351c0b2f7Stbbdev #include <dlfcn.h> 3451c0b2f7Stbbdev #endif /* _WIN32||_WIN64 */ 3551c0b2f7Stbbdev 3651c0b2f7Stbbdev #if __TBB_WEAK_SYMBOLS_PRESENT 3751c0b2f7Stbbdev 3851c0b2f7Stbbdev #pragma weak scalable_malloc 3951c0b2f7Stbbdev #pragma weak scalable_free 4051c0b2f7Stbbdev #pragma weak scalable_aligned_malloc 4151c0b2f7Stbbdev #pragma weak scalable_aligned_free 4251c0b2f7Stbbdev 4351c0b2f7Stbbdev extern "C" { 4451c0b2f7Stbbdev void* scalable_malloc(std::size_t); 4551c0b2f7Stbbdev void scalable_free(void*); 4651c0b2f7Stbbdev void* scalable_aligned_malloc(std::size_t, std::size_t); 4751c0b2f7Stbbdev void scalable_aligned_free(void*); 4851c0b2f7Stbbdev } 4951c0b2f7Stbbdev 5051c0b2f7Stbbdev #endif /* __TBB_WEAK_SYMBOLS_PRESENT */ 5151c0b2f7Stbbdev 5251c0b2f7Stbbdev namespace tbb { 5351c0b2f7Stbbdev namespace detail { 5451c0b2f7Stbbdev namespace r1 { 5551c0b2f7Stbbdev 5651c0b2f7Stbbdev //! Initialization routine used for first indirect call via allocate_handler. 5751c0b2f7Stbbdev static void* initialize_allocate_handler(std::size_t size); 5851c0b2f7Stbbdev 5951c0b2f7Stbbdev //! Handler for memory allocation 608e7f9e14SAlex using allocate_handler_type = void* (*)(std::size_t size); 618e7f9e14SAlex static std::atomic<allocate_handler_type> allocate_handler{ &initialize_allocate_handler }; 628e7f9e14SAlex allocate_handler_type allocate_handler_unsafe = nullptr; 6351c0b2f7Stbbdev 6451c0b2f7Stbbdev //! Handler for memory deallocation 6551c0b2f7Stbbdev static void (*deallocate_handler)(void* pointer) = nullptr; 6651c0b2f7Stbbdev 6751c0b2f7Stbbdev //! Initialization routine used for first indirect call via cache_aligned_allocate_handler. 6851c0b2f7Stbbdev static void* initialize_cache_aligned_allocate_handler(std::size_t n, std::size_t alignment); 6951c0b2f7Stbbdev 7051c0b2f7Stbbdev //! Allocates memory using standard malloc. It is used when scalable_allocator is not available 7151c0b2f7Stbbdev static void* std_cache_aligned_allocate(std::size_t n, std::size_t alignment); 7251c0b2f7Stbbdev 7351c0b2f7Stbbdev //! Allocates memory using standard free. It is used when scalable_allocator is not available 7451c0b2f7Stbbdev static void std_cache_aligned_deallocate(void* p); 7551c0b2f7Stbbdev 7651c0b2f7Stbbdev //! Handler for padded memory allocation 778e7f9e14SAlex using cache_aligned_allocate_handler_type = void* (*)(std::size_t n, std::size_t alignment); 788e7f9e14SAlex static std::atomic<cache_aligned_allocate_handler_type> cache_aligned_allocate_handler{ &initialize_cache_aligned_allocate_handler }; 798e7f9e14SAlex cache_aligned_allocate_handler_type cache_aligned_allocate_handler_unsafe = nullptr; 8051c0b2f7Stbbdev 8151c0b2f7Stbbdev //! Handler for padded memory deallocation 8251c0b2f7Stbbdev static void (*cache_aligned_deallocate_handler)(void* p) = nullptr; 8351c0b2f7Stbbdev 8451c0b2f7Stbbdev //! Table describing how to link the handlers. 8551c0b2f7Stbbdev static const dynamic_link_descriptor MallocLinkTable[] = { 868e7f9e14SAlex DLD(scalable_malloc, allocate_handler_unsafe), 8751c0b2f7Stbbdev DLD(scalable_free, deallocate_handler), 888e7f9e14SAlex DLD(scalable_aligned_malloc, cache_aligned_allocate_handler_unsafe), 8951c0b2f7Stbbdev DLD(scalable_aligned_free, cache_aligned_deallocate_handler), 9051c0b2f7Stbbdev }; 9151c0b2f7Stbbdev 9251c0b2f7Stbbdev 9351c0b2f7Stbbdev #if TBB_USE_DEBUG 9451c0b2f7Stbbdev #define DEBUG_SUFFIX "_debug" 9551c0b2f7Stbbdev #else 9651c0b2f7Stbbdev #define DEBUG_SUFFIX 9751c0b2f7Stbbdev #endif /* TBB_USE_DEBUG */ 9851c0b2f7Stbbdev 9951c0b2f7Stbbdev // MALLOCLIB_NAME is the name of the oneTBB memory allocator library. 10051c0b2f7Stbbdev #if _WIN32||_WIN64 10151c0b2f7Stbbdev #define MALLOCLIB_NAME "tbbmalloc" DEBUG_SUFFIX ".dll" 10251c0b2f7Stbbdev #elif __APPLE__ 10351c0b2f7Stbbdev #define MALLOCLIB_NAME "libtbbmalloc" DEBUG_SUFFIX ".dylib" 10451c0b2f7Stbbdev #elif __FreeBSD__ || __NetBSD__ || __OpenBSD__ || __sun || _AIX || __ANDROID__ 10551c0b2f7Stbbdev #define MALLOCLIB_NAME "libtbbmalloc" DEBUG_SUFFIX ".so" 106734f0bc0SPablo Romero #elif __unix__ // Note that order of these #elif's is important! 10751c0b2f7Stbbdev #define MALLOCLIB_NAME "libtbbmalloc" DEBUG_SUFFIX ".so.2" 10851c0b2f7Stbbdev #else 10951c0b2f7Stbbdev #error Unknown OS 11051c0b2f7Stbbdev #endif 11151c0b2f7Stbbdev 11251c0b2f7Stbbdev //! Initialize the allocation/free handler pointers. 11351c0b2f7Stbbdev /** Caller is responsible for ensuring this routine is called exactly once. 11451c0b2f7Stbbdev The routine attempts to dynamically link with the TBB memory allocator. 11551c0b2f7Stbbdev If that allocator is not found, it links to malloc and free. */ 11651c0b2f7Stbbdev void initialize_handler_pointers() { 11751c0b2f7Stbbdev __TBB_ASSERT(allocate_handler == &initialize_allocate_handler, NULL); 11851c0b2f7Stbbdev bool success = dynamic_link(MALLOCLIB_NAME, MallocLinkTable, 4); 11951c0b2f7Stbbdev if(!success) { 12051c0b2f7Stbbdev // If unsuccessful, set the handlers to the default routines. 12151c0b2f7Stbbdev // This must be done now, and not before FillDynamicLinks runs, because if other 12251c0b2f7Stbbdev // threads call the handlers, we want them to go through the DoOneTimeInitializations logic, 12351c0b2f7Stbbdev // which forces them to wait. 1248e7f9e14SAlex allocate_handler_unsafe = &std::malloc; 12551c0b2f7Stbbdev deallocate_handler = &std::free; 1268e7f9e14SAlex cache_aligned_allocate_handler_unsafe = &std_cache_aligned_allocate; 12751c0b2f7Stbbdev cache_aligned_deallocate_handler = &std_cache_aligned_deallocate; 12851c0b2f7Stbbdev } 12951c0b2f7Stbbdev 1308e7f9e14SAlex allocate_handler.store(allocate_handler_unsafe, std::memory_order_release); 1318e7f9e14SAlex cache_aligned_allocate_handler.store(cache_aligned_allocate_handler_unsafe, std::memory_order_release); 1328e7f9e14SAlex 13351c0b2f7Stbbdev PrintExtraVersionInfo( "ALLOCATOR", success?"scalable_malloc":"malloc" ); 13451c0b2f7Stbbdev } 13551c0b2f7Stbbdev 13651c0b2f7Stbbdev static std::once_flag initialization_state; 13751c0b2f7Stbbdev void initialize_cache_aligned_allocator() { 13851c0b2f7Stbbdev std::call_once(initialization_state, &initialize_handler_pointers); 13951c0b2f7Stbbdev } 14051c0b2f7Stbbdev 14151c0b2f7Stbbdev //! Executed on very first call through allocate_handler 14251c0b2f7Stbbdev static void* initialize_allocate_handler(std::size_t size) { 14351c0b2f7Stbbdev initialize_cache_aligned_allocator(); 14451c0b2f7Stbbdev __TBB_ASSERT(allocate_handler != &initialize_allocate_handler, NULL); 14551c0b2f7Stbbdev return (*allocate_handler)(size); 14651c0b2f7Stbbdev } 14751c0b2f7Stbbdev 14851c0b2f7Stbbdev //! Executed on very first call through cache_aligned_allocate_handler 14951c0b2f7Stbbdev static void* initialize_cache_aligned_allocate_handler(std::size_t bytes, std::size_t alignment) { 15051c0b2f7Stbbdev initialize_cache_aligned_allocator(); 15151c0b2f7Stbbdev __TBB_ASSERT(cache_aligned_allocate_handler != &initialize_cache_aligned_allocate_handler, NULL); 15251c0b2f7Stbbdev return (*cache_aligned_allocate_handler)(bytes, alignment); 15351c0b2f7Stbbdev } 15451c0b2f7Stbbdev 15551c0b2f7Stbbdev // TODO: use CPUID to find actual line size, though consider backward compatibility 15651c0b2f7Stbbdev // nfs - no false sharing 15751c0b2f7Stbbdev static constexpr std::size_t nfs_size = 128; 15851c0b2f7Stbbdev 15951c0b2f7Stbbdev std::size_t __TBB_EXPORTED_FUNC cache_line_size() { 16051c0b2f7Stbbdev return nfs_size; 16151c0b2f7Stbbdev } 16251c0b2f7Stbbdev 16351c0b2f7Stbbdev void* __TBB_EXPORTED_FUNC cache_aligned_allocate(std::size_t size) { 16451c0b2f7Stbbdev const std::size_t cache_line_size = nfs_size; 16551c0b2f7Stbbdev __TBB_ASSERT(is_power_of_two(cache_line_size), "must be power of two"); 16651c0b2f7Stbbdev 16751c0b2f7Stbbdev // Check for overflow 16851c0b2f7Stbbdev if (size + cache_line_size < size) { 16951c0b2f7Stbbdev throw_exception(exception_id::bad_alloc); 17051c0b2f7Stbbdev } 17151c0b2f7Stbbdev // scalable_aligned_malloc considers zero size request an error, and returns NULL 17251c0b2f7Stbbdev if (size == 0) size = 1; 17351c0b2f7Stbbdev 1748e7f9e14SAlex void* result = cache_aligned_allocate_handler.load(std::memory_order_acquire)(size, cache_line_size); 17551c0b2f7Stbbdev if (!result) { 17651c0b2f7Stbbdev throw_exception(exception_id::bad_alloc); 17751c0b2f7Stbbdev } 17851c0b2f7Stbbdev __TBB_ASSERT(is_aligned(result, cache_line_size), "The returned address isn't aligned"); 17951c0b2f7Stbbdev return result; 18051c0b2f7Stbbdev } 18151c0b2f7Stbbdev 18251c0b2f7Stbbdev void __TBB_EXPORTED_FUNC cache_aligned_deallocate(void* p) { 18351c0b2f7Stbbdev __TBB_ASSERT(cache_aligned_deallocate_handler, "Initialization has not been yet."); 18451c0b2f7Stbbdev (*cache_aligned_deallocate_handler)(p); 18551c0b2f7Stbbdev } 18651c0b2f7Stbbdev 18751c0b2f7Stbbdev static void* std_cache_aligned_allocate(std::size_t bytes, std::size_t alignment) { 18851c0b2f7Stbbdev // TODO: make it common with cache_aligned_resource 18951c0b2f7Stbbdev std::size_t space = alignment + bytes; 19051c0b2f7Stbbdev std::uintptr_t base = reinterpret_cast<std::uintptr_t>(std::malloc(space)); 19151c0b2f7Stbbdev if (!base) { 19251c0b2f7Stbbdev return nullptr; 19351c0b2f7Stbbdev } 19451c0b2f7Stbbdev std::uintptr_t result = (base + nfs_size) & ~(nfs_size - 1); 19551c0b2f7Stbbdev // Round up to the next cache line (align the base address) 19651c0b2f7Stbbdev __TBB_ASSERT((result - base) >= sizeof(std::uintptr_t), "Cannot store a base pointer to the header"); 19751c0b2f7Stbbdev __TBB_ASSERT(space - (result - base) >= bytes, "Not enough space for the storage"); 19851c0b2f7Stbbdev 19951c0b2f7Stbbdev // Record where block actually starts. 20051c0b2f7Stbbdev (reinterpret_cast<std::uintptr_t*>(result))[-1] = base; 20151c0b2f7Stbbdev return reinterpret_cast<void*>(result); 20251c0b2f7Stbbdev } 20351c0b2f7Stbbdev 20451c0b2f7Stbbdev static void std_cache_aligned_deallocate(void* p) { 20551c0b2f7Stbbdev if (p) { 20651c0b2f7Stbbdev __TBB_ASSERT(reinterpret_cast<std::uintptr_t>(p) >= 0x4096, "attempt to free block not obtained from cache_aligned_allocator"); 20751c0b2f7Stbbdev // Recover where block actually starts 20851c0b2f7Stbbdev std::uintptr_t base = (reinterpret_cast<std::uintptr_t*>(p))[-1]; 20951c0b2f7Stbbdev __TBB_ASSERT(((base + nfs_size) & ~(nfs_size - 1)) == reinterpret_cast<std::uintptr_t>(p), "Incorrect alignment or not allocated by std_cache_aligned_deallocate?"); 21051c0b2f7Stbbdev std::free(reinterpret_cast<void*>(base)); 21151c0b2f7Stbbdev } 21251c0b2f7Stbbdev } 21351c0b2f7Stbbdev 21451c0b2f7Stbbdev void* __TBB_EXPORTED_FUNC allocate_memory(std::size_t size) { 2158e7f9e14SAlex void* result = allocate_handler.load(std::memory_order_acquire)(size); 21651c0b2f7Stbbdev if (!result) { 21751c0b2f7Stbbdev throw_exception(exception_id::bad_alloc); 21851c0b2f7Stbbdev } 21951c0b2f7Stbbdev return result; 22051c0b2f7Stbbdev } 22151c0b2f7Stbbdev 22251c0b2f7Stbbdev void __TBB_EXPORTED_FUNC deallocate_memory(void* p) { 22351c0b2f7Stbbdev if (p) { 22451c0b2f7Stbbdev __TBB_ASSERT(deallocate_handler, "Initialization has not been yet."); 22551c0b2f7Stbbdev (*deallocate_handler)(p); 22651c0b2f7Stbbdev } 22751c0b2f7Stbbdev } 22851c0b2f7Stbbdev 22951c0b2f7Stbbdev bool __TBB_EXPORTED_FUNC is_tbbmalloc_used() { 2308e7f9e14SAlex auto handler_snapshot = allocate_handler.load(std::memory_order_acquire); 2318e7f9e14SAlex if (handler_snapshot == &initialize_allocate_handler) { 2328e7f9e14SAlex initialize_cache_aligned_allocator(); 23351c0b2f7Stbbdev } 2348e7f9e14SAlex handler_snapshot = allocate_handler.load(std::memory_order_relaxed); 2358e7f9e14SAlex __TBB_ASSERT(handler_snapshot != &initialize_allocate_handler && deallocate_handler != nullptr, NULL); 23651c0b2f7Stbbdev // Cast to void avoids type mismatch errors on some compilers (e.g. __IBMCPP__) 2378e7f9e14SAlex __TBB_ASSERT((reinterpret_cast<void*>(handler_snapshot) == reinterpret_cast<void*>(&std::malloc)) == (reinterpret_cast<void*>(deallocate_handler) == reinterpret_cast<void*>(&std::free)), 23851c0b2f7Stbbdev "Both shim pointers must refer to routines from the same package (either TBB or CRT)"); 2398e7f9e14SAlex return reinterpret_cast<void*>(handler_snapshot) == reinterpret_cast<void*>(&std::malloc); 24051c0b2f7Stbbdev } 24151c0b2f7Stbbdev 24251c0b2f7Stbbdev } // namespace r1 24351c0b2f7Stbbdev } // namespace detail 24451c0b2f7Stbbdev } // namespace tbb 245