2 * Copyright 2017 Facebook, Inc.
4 * Licensed under the Apache License, Version 2.0 (the "License");
5 * you may not use this file except in compliance with the License.
6 * You may obtain a copy of the License at
8 * http://www.apache.org/licenses/LICENSE-2.0
10 * Unless required by applicable law or agreed to in writing, software
11 * distributed under the License is distributed on an "AS IS" BASIS,
12 * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
13 * See the License for the specific language governing permissions and
14 * limitations under the License.
19 #include <folly/lang/SafeAssert.h>
26 * StampedPtr packs both a pointer to T and a uint16_t into a 64-bit value,
27 * exploiting the fact that current addresses are limited to 48 bits on
28 * all current x86-64 and ARM64 processors.
30 * For both x86-64 and ARM64, 64-bit pointers have a canonical
31 * form in which the upper 16 bits are equal to bit 47. Intel has
32 * announced a 57-bit addressing mode (see https://software.intel.com/
33 * sites/default/files/managed/2b/80/5-level_paging_white_paper.pdf),
34 * but it is not yet available. The first problematic platform will
35 * probably be ARMv8.2, which supports 52-bit virtual addresses.
37 * This code works on all of the platforms I have available for test,
38 * and probably on all currently-shipping platforms that have a hope of
39 * compiling folly. Rather than enumerating the supported platforms via
40 * ifdef, this code dynamically validates its packing assumption in debug
41 * builds on each call to a mutating function. Presumably by the time we
42 * are running this process in an operating system image that can address
43 * more than 256TB of memory, RAM cost and the latency of 128-bit CAS
44 * will have improved enough that this optimization is no longer impactful.
46 * A common approach to this kind of packing seems to be to just assume
47 * the top 16 bits are zero, but https://github.com/LuaJIT/LuaJIT/issues/49
48 * indicates that ARM64 platforms in the wild are actually setting bit 47
49 * in their stack addresses. That means that we need to extend bit 47 to
50 * do the right thing (it's not expensive, it compiles to one instruction
51 * on x86-64 and arm64).
53 * Compare to PackedSyncPtr and DiscriminatedPtr, which perform similar
54 * packing but add additional functionality. The name is taken from
55 * Java's AtomicStampedReference. Unlike PackedSyncPtr, which tries to
56 * act pointer-like, this class acts more like a pair whose elements are
57 * named ptr and stamp. It also allows direct access to the internal
58 * raw field: since we're already at the metal you might want to play
59 * additional games. It is guaranteed that a zero raw value gets decoded
60 * as a (ptr,stamp) of (nullptr,0).
65 * The packing is not guaranteed, except that it is guaranteed that
66 * raw == 0 iff ptr() == nullptr && stamp() == 0.
70 /* IMPORTANT: default initialization doesn't result in a sane state */
73 return unpackPtr(raw);
76 uint16_t stamp() const {
77 return unpackStamp(raw);
80 void set(T* ptr, uint16_t stamp) {
81 raw = pack(ptr, stamp);
85 raw = pack(ptr, unpackStamp(raw));
88 void setStamp(uint16_t stamp) {
89 raw = pack(unpackPtr(raw), stamp);
92 static T* unpackPtr(uint64_t raw) {
93 // Canonical form means we need to extend bit 47 of the pointer to
94 // bits 48..63 (unless the operating system never hands those pointers
95 // to us, which is difficult to prove). Signed right-shift of a
96 // negative number is implementation-defined in C++ (not undefined!),
97 // but actually does the right thing on all the platforms I can find.
98 auto extended = static_cast<int64_t>(raw) >> kInternalStampBits;
99 return reinterpret_cast<T*>(static_cast<intptr_t>(extended));
102 static uint16_t unpackStamp(uint64_t raw) {
103 return static_cast<uint16_t>(raw);
106 static uint64_t pack(T* ptr, uint16_t stamp) {
107 auto shifted = static_cast<uint64_t>(reinterpret_cast<uintptr_t>(ptr))
108 << kInternalStampBits;
109 uint64_t raw = shifted | stamp;
110 FOLLY_SAFE_DCHECK(unpackPtr(raw) == ptr, "ptr mismatch.");
111 FOLLY_SAFE_DCHECK(unpackStamp(raw) == stamp, "stamp mismatch.");
116 // On 32-bit platforms it works okay to store a ptr in the top 48
117 // bits of a 64-bit value, but it will result in unnecessary work.
118 // If we align the pointer part at word granularity when we have the
119 // space then no shifting will ever be needed.
120 static constexpr unsigned kInternalStampBits = sizeof(void*) == 4 ? 32 : 16;
123 template <typename T>
124 StampedPtr<T> makeStampedPtr(T* ptr, uint16_t stamp) {
125 return StampedPtr<T>{StampedPtr<T>::pack(ptr, stamp)};