/* This file is part of TON Blockchain Library. TON Blockchain Library is free software: you can redistribute it and/or modify it under the terms of the GNU Lesser General Public License as published by the Free Software Foundation, either version 2 of the License, or (at your option) any later version. TON Blockchain Library is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU Lesser General Public License for more details. You should have received a copy of the GNU Lesser General Public License along with TON Blockchain Library. If not, see . Copyright 2017-2019 Telegram Systems LLP */ #pragma once #include "td/utils/port/EventFd.h" #include "td/utils/port/thread.h" #if !TD_THREAD_UNSUPPORTED && !TD_EVENTFD_UNSUPPORTED #include #include #include namespace td { namespace detail { class Backoff { int cnt = 0; public: bool next() { // TODO: find out better strategy // TODO: try adaptive backoff // TODO: different strategy one core cpu // return false; cnt++; if (cnt < 1) { // 50 return true; } else { td::this_thread::yield(); return cnt < 3; // 500 } } }; class InfBackoff { int cnt = 0; public: bool next() { cnt++; if (cnt < 50) { return true; } else { td::this_thread::yield(); return true; } } }; } // namespace detail template class SPSCBlockQueue { public: using ValueType = T; private: static constexpr int buffer_size() { static_assert(P >= 1 && P <= 20, "Bad size of BlockQueue"); return 1 << P; } struct Position { std::atomic i{0}; char pad[64 - sizeof(std::atomic)]; uint32 local_writer_i; char pad2[64 - sizeof(uint32)]; uint32 local_reader_i; char pad3[64 - sizeof(uint32)]; void init() { i = 0; local_reader_i = 0; local_writer_i = 0; } }; typename std::aligned_storage::type data_[buffer_size()]; Position writer_; Position reader_; static int fix_i(int i) { return i & (buffer_size() - 1); } ValueType *at_ptr(int i) { return reinterpret_cast(&data_[fix_i(i)]); } ValueType &at(int i) { return *at_ptr(i); } public: void init() { writer_.init(); reader_.init(); } void destroy() { } int writer_size() { return static_cast(writer_.local_reader_i + buffer_size() - writer_.local_writer_i); } bool writer_empty() { return writer_.local_reader_i + buffer_size() == writer_.local_writer_i; } template void writer_put_unsafe(PutValueType &&value) { at(writer_.local_writer_i++) = std::forward(value); } int writer_update() { writer_.local_reader_i = reader_.i.load(std::memory_order_acquire); return writer_size(); } void writer_flush() { writer_.i.store(writer_.local_writer_i, std::memory_order_release); } int reader_size() { return static_cast(reader_.local_writer_i - reader_.local_reader_i); } int reader_empty() { return reader_.local_writer_i == reader_.local_reader_i; } ValueType reader_get_unsafe() { return std::move(at(reader_.local_reader_i++)); } int reader_update() { reader_.local_writer_i = writer_.i.load(std::memory_order_acquire); return reader_size(); } void reader_flush() { reader_.i.store(reader_.local_reader_i, std::memory_order_release); } }; template > class SPSCChainQueue { public: using ValueType = T; void init() { head_ = tail_ = create_node(); } SPSCChainQueue() = default; SPSCChainQueue(const SPSCChainQueue &) = delete; SPSCChainQueue &operator=(const SPSCChainQueue &) = delete; SPSCChainQueue(SPSCChainQueue &&) = delete; SPSCChainQueue &operator=(SPSCChainQueue &&) = delete; ~SPSCChainQueue() { destroy(); } void destroy() { while (head_ != nullptr) { Node *to_delete = head_; head_ = head_->next_; delete_node(to_delete); } tail_ = nullptr; } int writer_size() { return tail_->q_.writer_size(); } bool writer_empty() { return tail_->q_.writer_empty(); } template void writer_put_unsafe(PutValueType &&value) { tail_->q_.writer_put_unsafe(std::forward(value)); } int writer_update() { int res = tail_->q_.writer_update(); if (res != 0) { return res; } writer_flush(); Node *new_tail = create_node(); tail_->next_ = new_tail; tail_->is_closed_.store(true, std::memory_order_release); tail_ = new_tail; return tail_->q_.writer_update(); } void writer_flush() { tail_->q_.writer_flush(); } int reader_size() { return head_->q_.reader_size(); } int reader_empty() { return head_->q_.reader_empty(); } ValueType reader_get_unsafe() { return std::move(head_->q_.reader_get_unsafe()); } int reader_update() { int res = head_->q_.reader_update(); if (res != 0) { return res; } if (!head_->is_closed_.load(std::memory_order_acquire)) { return 0; } res = head_->q_.reader_update(); if (res != 0) { return res; } // reader_flush(); Node *old_head = head_; head_ = head_->next_; delete_node(old_head); return head_->q_.reader_update(); } void reader_flush() { head_->q_.reader_flush(); } private: struct Node { BlockQueueT q_; std::atomic is_closed_{false}; Node *next_; void init() { q_.init(); is_closed_ = false; next_ = nullptr; } void destroy() { q_.destroy(); next_ = nullptr; } }; Node *head_; char pad[64 - sizeof(Node *)]; Node *tail_; char pad2[64 - sizeof(Node *)]; Node *create_node() { Node *res = new Node(); res->init(); return res; } void delete_node(Node *node) { node->destroy(); delete node; } }; template , class BackoffT = detail::Backoff> class BackoffQueue : public QueueT { public: using ValueType = T; template void writer_put(PutValueType &&value) { if (this->writer_empty()) { int sz = this->writer_update(); CHECK(sz != 0); } this->writer_put_unsafe(std::forward(value)); } int reader_wait() { BackoffT backoff; int res = 0; do { res = this->reader_update(); } while (res == 0 && backoff.next()); return res; } }; template > using InfBackoffQueue = BackoffQueue; template > class PollQueue : public QueueT { public: using ValueType = T; using QueueType = QueueT; void init() { QueueType::init(); event_fd_.init(); wait_state_ = 0; writer_wait_state_ = 0; } PollQueue() = default; PollQueue(const PollQueue &) = delete; PollQueue &operator=(const PollQueue &) = delete; PollQueue(PollQueue &&) = delete; PollQueue &operator=(PollQueue &&) = delete; ~PollQueue() { destroy_impl(); } void destroy() { destroy_impl(); QueueType::destroy(); } void writer_flush() { int old_wait_state = get_wait_state(); std::atomic_thread_fence(std::memory_order_seq_cst); QueueType::writer_flush(); std::atomic_thread_fence(std::memory_order_seq_cst); int wait_state = get_wait_state(); if ((wait_state & 1) && wait_state != writer_wait_state_) { event_fd_.release(); writer_wait_state_ = old_wait_state; } } EventFd &reader_get_event_fd() { return event_fd_; } // if 0 is returned than it is useless to rerun it before fd is // ready to read. int reader_wait_nonblock() { int res; if ((get_wait_state() & 1) == 0) { res = this->QueueType::reader_wait(); if (res != 0) { return res; } inc_wait_state(); std::atomic_thread_fence(std::memory_order_seq_cst); res = this->reader_update(); if (res != 0) { inc_wait_state(); return res; } } event_fd_.acquire(); std::atomic_thread_fence(std::memory_order_seq_cst); res = this->reader_update(); if (res != 0) { inc_wait_state(); } return res; } // Just an example of usage int reader_wait() { int res; while ((res = reader_wait_nonblock()) == 0) { reader_get_event_fd().wait(1000); } return res; } private: EventFd event_fd_; std::atomic wait_state_{0}; int writer_wait_state_; int get_wait_state() { return wait_state_.load(std::memory_order_relaxed); } void inc_wait_state() { wait_state_.store(get_wait_state() + 1, std::memory_order_relaxed); } void destroy_impl() { if (!event_fd_.empty()) { event_fd_.close(); } } }; } // namespace td #else #include "td/utils/common.h" namespace td { // dummy implementation which shouldn't be used template class PollQueue { public: using ValueType = T; void init() { UNREACHABLE(); } template void writer_put(PutValueType &&value) { UNREACHABLE(); } void writer_flush() { UNREACHABLE(); } int reader_wait_nonblock() { UNREACHABLE(); return 0; } ValueType reader_get_unsafe() { UNREACHABLE(); return ValueType(); } void reader_flush() { UNREACHABLE(); } PollQueue() = default; PollQueue(const PollQueue &) = delete; PollQueue &operator=(const PollQueue &) = delete; PollQueue(PollQueue &&) = delete; PollQueue &operator=(PollQueue &&) = delete; ~PollQueue() = default; }; } // namespace td #endif