// Copyright (c) 2020 PaddlePaddle Authors. All Rights Reserved. // // Licensed under the Apache License, Version 2.0 (the "License"); // you may not use this file except in compliance with the License. // You may obtain a copy of the License at // // http://www.apache.org/licenses/LICENSE-2.0 // // Unless required by applicable law or agreed to in writing, software // distributed under the License is distributed on an "AS IS" BASIS, // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. // See the License for the specific language governing permissions and // limitations under the License. #ifndef _WIN32 #include "paddle/fluid/memory/allocation/mmap_allocator.h" #include #include #include #include #include #include "glog/logging.h" #include "paddle/fluid/platform/enforce.h" DECLARE_bool(use_shm_cache); namespace paddle { namespace memory { namespace allocation { std::string GetIPCName() { static std::random_device rd; std::string handle = "/paddle_"; #ifdef _WIN32 handle += std::to_string(GetCurrentProcessId()); #else handle += std::to_string(getpid()); #endif handle += "_"; handle += std::to_string(rd()); return handle; } struct CountInfo { std::atomic refcount; }; void AllocateMemoryMap( std::string filename, int flags, size_t size, void **map_ptr_, int *fd_) { // TODO(@ZHUI): support win32 int file_flags = 0; int fd = -1; if (flags & MAPPED_SHAREDMEM) { file_flags = O_RDWR | O_CREAT; } else { file_flags = O_RDONLY; } if (flags & MAPPED_EXCLUSIVE) { file_flags |= O_EXCL; } if (flags & MAPPED_NOCREATE) { file_flags &= ~O_CREAT; } if (!(flags & MAPPED_FROMFD)) { if (flags & MAPPED_SHAREDMEM) { fd = shm_open(filename.c_str(), file_flags, (mode_t)0600); PADDLE_ENFORCE_NE( fd, -1, platform::errors::Unavailable( "File descriptor %s open failed, unable in read-write mode", filename.c_str())); VLOG(6) << "shm_open: " << filename; MemoryMapFdSet::Instance().Insert(filename); } } else { fd = -1; } PADDLE_ENFORCE_EQ(ftruncate(fd, size), 0, platform::errors::Unavailable( "Fruncate a file to a specified length failed!")); if (flags & MAPPED_SHAREDMEM) { *map_ptr_ = mmap(nullptr, size, PROT_READ | PROT_WRITE, MAP_SHARED, fd, 0); } else { *map_ptr_ = mmap(nullptr, size, PROT_READ | PROT_WRITE, MAP_PRIVATE, fd, 0); } PADDLE_ENFORCE_NE(*map_ptr_, MAP_FAILED, platform::errors::Unavailable( "Memory map failed when create shared memory.")); if (flags & MAPPED_KEEPFD) { *fd_ = fd; } else { PADDLE_ENFORCE_NE(::close(fd), -1, platform::errors::Unavailable( "Error closing memory maped file <", filename, ">")); *fd_ = -1; } } std::shared_ptr AllocateRefcountedMemoryMapAllocation(std::string filename, int flags, size_t size, int buffer_id) { int fd = -1; void *base_ptr = nullptr; if (buffer_id == -1) { AllocateMemoryMap(filename, flags, size + mmap_alignment, &base_ptr, &fd); VLOG(4) << "Create and mmap a new shm: " << filename; } else { base_ptr = MemoryMapAllocationPool::Instance().GetById(buffer_id).mmap_ptr_; VLOG(4) << "Get a cached shm " << filename; } void *aliged_base_ptr = static_cast(static_cast(base_ptr) + mmap_alignment); return std::make_shared( aliged_base_ptr, size, filename, flags, fd, buffer_id); } RefcountedMemoryMapAllocation::RefcountedMemoryMapAllocation( void *ptr, size_t size, std::string ipc_name, int fd, int flags, int buffer_id) : MemoryMapAllocation(ptr, size, ipc_name, fd, flags) { // must reset base ptr first. buffer_id_ = buffer_id; resetBaseptr(); initializeRefercount(); } void MemoryMapAllocation::close() { if (closed_) { return; } closed_ = true; } MemoryMapAllocation::~MemoryMapAllocation() { close(); } void RefcountedMemoryMapAllocation::incref() { CountInfo *info = static_cast(map_ptr_); ++info->refcount; } int RefcountedMemoryMapAllocation::decref() { CountInfo *info = static_cast(map_ptr_); return --info->refcount == 0; } void RefcountedMemoryMapAllocation::resetBaseptr() { map_ptr_ = static_cast(static_cast(map_ptr_) - mmap_alignment); map_size_ = map_size_ + mmap_alignment; } void RefcountedMemoryMapAllocation::initializeRefercount() { CountInfo *info = reinterpret_cast(map_ptr_); if (flags_ & MAPPED_EXCLUSIVE) { new (&info->refcount) std::atomic(1); } else { info->refcount++; } } void RefcountedMemoryMapAllocation::close() { VLOG(4) << "Close a RefcountedMemoryMapAllocation: " << ipc_name_; if (closed_) { return; } closed_ = true; void *data = map_ptr_; CountInfo *info = reinterpret_cast(data); --info->refcount; if (FLAGS_use_shm_cache && buffer_id_ != -1) { return; } else { if (FLAGS_use_shm_cache && MemoryMapAllocationPool::Instance().BufferSize() < static_cast( MemoryMapAllocationPool::Instance().MaxPoolSize())) { MemoryMapAllocationPool::Instance().Insert(MemoryMapInfo( flags_, map_size_ - mmap_alignment, ipc_name_, map_ptr_)); } else { if (info->refcount == 0 && shm_open(ipc_name_.c_str(), O_RDWR, (mode_t)0600) != -1) { shm_unlink(ipc_name_.c_str()); VLOG(6) << "shm_unlink file: " << ipc_name_; } PADDLE_ENFORCE_NE(munmap(map_ptr_, map_size_), -1, platform::errors::Unavailable( "could not unmap the shared memory file: ", strerror(errno), " (", errno, ")")); } } } MemoryMapWriterAllocation::~MemoryMapWriterAllocation() { PADDLE_ENFORCE_NE( munmap(this->ptr(), this->size()), -1, platform::errors::Unavailable("could not unmap the shared memory file %s", this->ipc_name())); } MemoryMapReaderAllocation::~MemoryMapReaderAllocation() { PADDLE_ENFORCE_NE( munmap(this->ptr(), this->size()), -1, platform::errors::Unavailable("could not unmap the shared memory file %s", this->ipc_name())); /* Here we do not pay attention to the result of shm_unlink, because the memory mapped file may have been cleared due to the MemoryMapFdSet::Clear() */ // Code of DataLoader subprocess: // // core._array_to_share_memory_tensor(b) // out_queue.put((idx, tensor_list, structure)) // core._remove_tensor_list_mmap_fds(tensor_list) /* If the tensor in already in the send queue, the tensor will be * deconstructed by the function. If the tensor not send yet, it * will be cleared by MemoryMapFdSet::Clear(). * If the `_remove_tensor_list_mmap_fds` have be interrupted, the * tensor will be cleared by both methods. * */ shm_unlink(this->ipc_name().c_str()); MemoryMapFdSet::Instance().Remove(this->ipc_name()); VLOG(3) << "~MemoryMapReaderAllocation: " << this->ipc_name(); } std::shared_ptr AllocateMemoryMapWriterAllocation( size_t size) { const std::string &ipc_name = GetIPCName(); int flags = O_RDWR | O_CREAT; int fd = shm_open(ipc_name.c_str(), flags, 0600); PADDLE_ENFORCE_NE(fd, -1, platform::errors::Unavailable( "File descriptor %s open failed", ipc_name.c_str())); PADDLE_ENFORCE_EQ(ftruncate(fd, size), 0, platform::errors::Unavailable( "Fruncate a file to a specified length failed!")); void *ptr = mmap(NULL, size, PROT_READ | PROT_WRITE, MAP_SHARED, fd, 0); PADDLE_ENFORCE_NE(ptr, MAP_FAILED, platform::errors::Unavailable( "Memory map failed when create shared memory.")); close(fd); return std::make_shared(ptr, size, ipc_name); } std::shared_ptr RebuildMemoryMapReaderAllocation( const std::string &ipc_name, size_t size) { int flags = O_RDWR | O_CREAT; flags &= ~O_CREAT; int fd = shm_open(ipc_name.c_str(), flags, 0600); PADDLE_ENFORCE_NE(fd, -1, platform::errors::Unavailable( "File descriptor %s open failed", ipc_name.c_str())); void *ptr = mmap(nullptr, size, PROT_READ | PROT_WRITE, MAP_SHARED, fd, 0); PADDLE_ENFORCE_NE(ptr, MAP_FAILED, platform::errors::Unavailable( "Memory map failed when rebuild shared memory.")); close(fd); return std::make_shared(ptr, size, ipc_name); } MemoryMapFdSet &MemoryMapFdSet::Instance() { // NOLINT static MemoryMapFdSet set; return set; } void MemoryMapFdSet::Insert(const std::string &ipc_name) { std::lock_guard guard(mtx_); fd_set_.emplace(ipc_name); VLOG(3) << "PID: " << getpid() << ", MemoryMapFdSet: insert " << ipc_name << ", set size: " << fd_set_.size(); } void MemoryMapFdSet::Remove(const std::string &ipc_name) { std::lock_guard guard(mtx_); fd_set_.erase(ipc_name); VLOG(3) << "PID: " << getpid() << ", MemoryMapFdSet: erase " << ipc_name << ", set size: " << fd_set_.size(); } void MemoryMapFdSet::Clear() { VLOG(3) << "PID: " << getpid() << ", MemoryMapFdSet: set size - " << fd_set_.size(); std::lock_guard guard(mtx_); for (auto fd : fd_set_) { int rlt = shm_unlink(fd.c_str()); if (rlt == 0) { VLOG(3) << "PID: " << getpid() << ", MemoryMapFdSet: clear " << fd; } } fd_set_.clear(); } MemoryMapFdSet::~MemoryMapFdSet() { Clear(); } MemoryMapAllocationPool *MemoryMapAllocationPool::pool_ = nullptr; void MemoryMapAllocationPool::Insert(const MemoryMapInfo &memory_map) { std::lock_guard guard(mtx_); memory_map_allocations_.push_back(memory_map); VLOG(4) << this << "Intsert a new shm: " << memory_map.file_name_; } int MemoryMapAllocationPool::FindFromCache(const int &flag, const size_t &data_size, const std::string &file_name, bool check_refcount) { std::lock_guard guard(mtx_); for (size_t idx = 0; idx < memory_map_allocations_.size(); idx++) { if (memory_map_allocations_.at(idx).flags_ == flag && memory_map_allocations_.at(idx).data_size_ == data_size) { if (file_name == "" || memory_map_allocations_.at(idx).file_name_ == file_name) { if (!check_refcount || reinterpret_cast( memory_map_allocations_.at(idx).mmap_ptr_) ->refcount == 0) { VLOG(4) << "Match at: " << idx; return idx; } } } } return -1; } const MemoryMapInfo &MemoryMapAllocationPool::GetById(int id) { std::lock_guard guard(mtx_); return memory_map_allocations_.at(id); } void MemoryMapAllocationPool::SetMaxPoolSize(const int &size) { max_pool_size_ = size; VLOG(4) << this << "Set max pool size is: " << max_pool_size_; } void MemoryMapAllocationPool::Clear() { std::lock_guard guard(mtx_); for (auto mmap : memory_map_allocations_) { int rlt = shm_unlink(mmap.file_name_.c_str()); if (rlt == 0) { VLOG(4) << "MemoryMapAllocationPool: clear " << mmap.file_name_; } PADDLE_ENFORCE_NE(munmap(mmap.mmap_ptr_, mmap.data_size_ + mmap_alignment), -1, platform::errors::Unavailable( "could not unmap the shared memory file: ", strerror(errno), " (", errno, ")")); } memory_map_allocations_.clear(); } MemoryMapAllocationPool::~MemoryMapAllocationPool() { Clear(); } } // namespace allocation } // namespace memory } // namespace paddle #endif