/* * Copyright 2016 Facebook, Inc. * * 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. */ #pragma once #include #if !FOLLY_X64 && !FOLLY_PPC64 # error "PackedSyncPtr is x64 and ppc64 specific code." #endif /* * An 8-byte pointer with an integrated spin lock and 15-bit integer * (you can use this for a size of the allocation, if you want, or * something else, or nothing). * * This is using an x64-specific detail about the effective virtual * address space. Long story short: the upper two bytes of all our * pointers will be zero in reality---and if you have a couple billion * such pointers in core, it makes pretty good sense to try to make * use of that memory. The exact details can be perused here: * * http://en.wikipedia.org/wiki/X86-64#Canonical_form_addresses * * This is not a "smart" pointer: nothing automagical is going on * here. Locking is up to the user. Resource deallocation is up to * the user. Locks are never acquired or released outside explicit * calls to lock() and unlock(). * * Change the value of the raw pointer with set(), but you must hold * the lock when calling this function if multiple threads could be * using this class. * * TODO(jdelong): should we use the low order bit for the lock, so we * get a whole 16-bits for our integer? (There's also 2 more bits * down there if the pointer comes from malloc.) * * @author Spencer Ahrens * @author Jordan DeLong */ #include #include #include namespace folly { template class PackedSyncPtr { // This just allows using this class even with T=void. Attempting // to use the operator* or operator[] on a PackedSyncPtr will // still properly result in a compile error. typedef typename std::add_lvalue_reference::type reference; public: /* * If you default construct one of these, you must call this init() * function before using it. * * (We are avoiding a constructor to ensure gcc allows us to put * this class in packed structures.) */ void init(T* initialPtr = 0, uint16_t initialExtra = 0) { auto intPtr = reinterpret_cast(initialPtr); CHECK(!(intPtr >> 48)); data_.init(intPtr); setExtra(initialExtra); } /* * Sets a new pointer. You must hold the lock when calling this * function, or else be able to guarantee no other threads could be * using this PackedSyncPtr<>. */ void set(T* t) { auto intPtr = reinterpret_cast(t); auto shiftedExtra = uintptr_t(extra()) << 48; CHECK(!(intPtr >> 48)); data_.setData(intPtr | shiftedExtra); } /* * Get the pointer. * * You can call any of these without holding the lock, with the * normal types of behavior you'll get on x64 from reading a pointer * without locking. */ T* get() const { return reinterpret_cast(data_.getData() & (-1ull >> 16)); } T* operator->() const { return get(); } reference operator*() const { return *get(); } reference operator[](std::ptrdiff_t i) const { return get()[i]; } // Synchronization (logically const, even though this mutates our // locked state: you can lock a const PackedSyncPtr to read it). void lock() const { data_.lock(); } void unlock() const { data_.unlock(); } bool try_lock() const { return data_.try_lock(); } /* * Access extra data stored in unused bytes of the pointer. * * It is ok to call this without holding the lock. */ uint16_t extra() const { return data_.getData() >> 48; } /* * Don't try to put anything into this that has the high bit set: * that's what we're using for the mutex. * * Don't call this without holding the lock. */ void setExtra(uint16_t extra) { CHECK(!(extra & 0x8000)); auto ptr = data_.getData() & (-1ull >> 16); data_.setData((uintptr_t(extra) << 48) | ptr); } private: PicoSpinLock data_; } FOLLY_PACK_ATTR; static_assert( std::is_pod>::value, "PackedSyncPtr must be kept a POD type."); static_assert(sizeof(PackedSyncPtr) == 8, "PackedSyncPtr should be only 8 bytes---something is " "messed up"); }