//===-- sanitizer_stack_store.cpp -------------------------------*- C++ -*-===// // // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions. // See https://llvm.org/LICENSE.txt for license information. // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception // //===----------------------------------------------------------------------===// #include "sanitizer_stack_store.h" #include "sanitizer_atomic.h" #include "sanitizer_common.h" #include "sanitizer_internal_defs.h" #include "sanitizer_leb128.h" #include "sanitizer_lzw.h" #include "sanitizer_placement_new.h" #include "sanitizer_stacktrace.h" namespace __sanitizer { namespace { struct StackTraceHeader { static constexpr u32 kStackSizeBits = 8; u8 size; u8 tag; explicit StackTraceHeader(const StackTrace &trace) : size(Min(trace.size, (1u << 8) - 1)), tag(trace.tag) { CHECK_EQ(trace.tag, static_cast(tag)); } explicit StackTraceHeader(uptr h) : size(h & ((1 << kStackSizeBits) - 1)), tag(h >> kStackSizeBits) {} uptr ToUptr() const { return static_cast(size) | (static_cast(tag) << kStackSizeBits); } }; } // namespace StackStore::Id StackStore::Store(const StackTrace &trace, uptr *pack) { if (!trace.size && !trace.tag) return 0; StackTraceHeader h(trace); uptr idx = 0; *pack = 0; uptr *stack_trace = Alloc(h.size + 1, &idx, pack); // No more space. if (stack_trace == nullptr) return 0; *stack_trace = h.ToUptr(); internal_memcpy(stack_trace + 1, trace.trace, h.size * sizeof(uptr)); *pack += blocks_[GetBlockIdx(idx)].Stored(h.size + 1); return OffsetToId(idx); } StackTrace StackStore::Load(Id id) { if (!id) return {}; uptr idx = IdToOffset(id); uptr block_idx = GetBlockIdx(idx); CHECK_LT(block_idx, ARRAY_SIZE(blocks_)); const uptr *stack_trace = blocks_[block_idx].GetOrUnpack(this); if (!stack_trace) return {}; stack_trace += GetInBlockIdx(idx); StackTraceHeader h(*stack_trace); return StackTrace(stack_trace + 1, h.size, h.tag); } uptr StackStore::Allocated() const { return atomic_load_relaxed(&allocated_) + sizeof(*this); } uptr *StackStore::Alloc(uptr count, uptr *idx, uptr *pack) { for (;;) { // Optimisic lock-free allocation, essentially try to bump the // total_frames_. uptr start = atomic_fetch_add(&total_frames_, count, memory_order_relaxed); uptr block_idx = GetBlockIdx(start); uptr last_idx = GetBlockIdx(start + count - 1); if (LIKELY(block_idx == last_idx)) { // Fits into a single block. // No more available blocks. Indicate inability to allocate more memory. if (block_idx >= ARRAY_SIZE(blocks_)) return nullptr; *idx = start; return blocks_[block_idx].GetOrCreate(this) + GetInBlockIdx(start); } // Retry. We can't use range allocated in two different blocks. CHECK_LE(count, kBlockSizeFrames); uptr in_first = kBlockSizeFrames - GetInBlockIdx(start); // Mark tail/head of these blocks as "stored".to avoid waiting before we can // Pack(). *pack += blocks_[block_idx].Stored(in_first); *pack += blocks_[last_idx].Stored(count - in_first); } } void *StackStore::Map(uptr size, const char *mem_type) { atomic_fetch_add(&allocated_, size, memory_order_relaxed); return MmapNoReserveOrDie(size, mem_type); } void StackStore::Unmap(void *addr, uptr size) { atomic_fetch_sub(&allocated_, size, memory_order_relaxed); UnmapOrDie(addr, size); } uptr StackStore::Pack(Compression type) { uptr res = 0; for (BlockInfo &b : blocks_) res += b.Pack(type, this); return res; } void StackStore::LockAll() { for (BlockInfo &b : blocks_) b.Lock(); } void StackStore::UnlockAll() { for (BlockInfo &b : blocks_) b.Unlock(); } void StackStore::TestOnlyUnmap() { for (BlockInfo &b : blocks_) b.TestOnlyUnmap(this); internal_memset(this, 0, sizeof(*this)); } uptr *StackStore::BlockInfo::Get() const { // Idiomatic double-checked locking uses memory_order_acquire here. But // relaxed is fine for us, justification is similar to // TwoLevelMap::GetOrCreate. return reinterpret_cast(atomic_load_relaxed(&data_)); } uptr *StackStore::BlockInfo::Create(StackStore *store) { SpinMutexLock l(&mtx_); uptr *ptr = Get(); if (!ptr) { ptr = reinterpret_cast(store->Map(kBlockSizeBytes, "StackStore")); atomic_store(&data_, reinterpret_cast(ptr), memory_order_release); } return ptr; } uptr *StackStore::BlockInfo::GetOrCreate(StackStore *store) { uptr *ptr = Get(); if (LIKELY(ptr)) return ptr; return Create(store); } class SLeb128Encoder { public: SLeb128Encoder(u8 *begin, u8 *end) : begin(begin), end(end) {} bool operator==(const SLeb128Encoder &other) const { return begin == other.begin; } bool operator!=(const SLeb128Encoder &other) const { return begin != other.begin; } SLeb128Encoder &operator=(uptr v) { sptr diff = v - previous; begin = EncodeSLEB128(diff, begin, end); previous = v; return *this; } SLeb128Encoder &operator*() { return *this; } SLeb128Encoder &operator++() { return *this; } u8 *base() const { return begin; } private: u8 *begin; u8 *end; uptr previous = 0; }; class SLeb128Decoder { public: SLeb128Decoder(const u8 *begin, const u8 *end) : begin(begin), end(end) {} bool operator==(const SLeb128Decoder &other) const { return begin == other.begin; } bool operator!=(const SLeb128Decoder &other) const { return begin != other.begin; } uptr operator*() { sptr diff; begin = DecodeSLEB128(begin, end, &diff); previous += diff; return previous; } SLeb128Decoder &operator++() { return *this; } SLeb128Decoder operator++(int) { return *this; } private: const u8 *begin; const u8 *end; uptr previous = 0; }; static u8 *CompressDelta(const uptr *from, const uptr *from_end, u8 *to, u8 *to_end) { SLeb128Encoder encoder(to, to_end); for (; from != from_end; ++from, ++encoder) *encoder = *from; return encoder.base(); } static uptr *UncompressDelta(const u8 *from, const u8 *from_end, uptr *to, uptr *to_end) { SLeb128Decoder decoder(from, from_end); SLeb128Decoder end(from_end, from_end); for (; decoder != end; ++to, ++decoder) *to = *decoder; CHECK_EQ(to, to_end); return to; } static u8 *CompressLzw(const uptr *from, const uptr *from_end, u8 *to, u8 *to_end) { SLeb128Encoder encoder(to, to_end); encoder = LzwEncode(from, from_end, encoder); return encoder.base(); } static uptr *UncompressLzw(const u8 *from, const u8 *from_end, uptr *to, uptr *to_end) { SLeb128Decoder decoder(from, from_end); SLeb128Decoder end(from_end, from_end); to = LzwDecode(decoder, end, to); CHECK_EQ(to, to_end); return to; } #if defined(_MSC_VER) && !defined(__clang__) # pragma warning(push) // Disable 'nonstandard extension used: zero-sized array in struct/union'. # pragma warning(disable : 4200) #endif namespace { struct PackedHeader { uptr size; StackStore::Compression type; u8 data[]; }; } // namespace #if defined(_MSC_VER) && !defined(__clang__) # pragma warning(pop) #endif uptr *StackStore::BlockInfo::GetOrUnpack(StackStore *store) { SpinMutexLock l(&mtx_); switch (state) { case State::Storing: state = State::Unpacked; FALLTHROUGH; case State::Unpacked: return Get(); case State::Packed: break; } u8 *ptr = reinterpret_cast(Get()); CHECK_NE(nullptr, ptr); const PackedHeader *header = reinterpret_cast(ptr); CHECK_LE(header->size, kBlockSizeBytes); CHECK_GE(header->size, sizeof(PackedHeader)); uptr packed_size_aligned = RoundUpTo(header->size, GetPageSizeCached()); uptr *unpacked = reinterpret_cast(store->Map(kBlockSizeBytes, "StackStoreUnpack")); uptr *unpacked_end; switch (header->type) { case Compression::Delta: unpacked_end = UncompressDelta(header->data, ptr + header->size, unpacked, unpacked + kBlockSizeFrames); break; case Compression::LZW: unpacked_end = UncompressLzw(header->data, ptr + header->size, unpacked, unpacked + kBlockSizeFrames); break; default: UNREACHABLE("Unexpected type"); break; } CHECK_EQ(kBlockSizeFrames, unpacked_end - unpacked); MprotectReadOnly(reinterpret_cast(unpacked), kBlockSizeBytes); atomic_store(&data_, reinterpret_cast(unpacked), memory_order_release); store->Unmap(ptr, packed_size_aligned); state = State::Unpacked; return Get(); } uptr StackStore::BlockInfo::Pack(Compression type, StackStore *store) { if (type == Compression::None) return 0; SpinMutexLock l(&mtx_); switch (state) { case State::Unpacked: case State::Packed: return 0; case State::Storing: break; } uptr *ptr = Get(); if (!ptr || !Stored(0)) return 0; u8 *packed = reinterpret_cast(store->Map(kBlockSizeBytes, "StackStorePack")); PackedHeader *header = reinterpret_cast(packed); u8 *alloc_end = packed + kBlockSizeBytes; u8 *packed_end = nullptr; switch (type) { case Compression::Delta: packed_end = CompressDelta(ptr, ptr + kBlockSizeFrames, header->data, alloc_end); break; case Compression::LZW: packed_end = CompressLzw(ptr, ptr + kBlockSizeFrames, header->data, alloc_end); break; default: UNREACHABLE("Unexpected type"); break; } header->type = type; header->size = packed_end - packed; VPrintf(1, "Packed block of %zu KiB to %zu KiB\n", kBlockSizeBytes >> 10, header->size >> 10); if (kBlockSizeBytes - header->size < kBlockSizeBytes / 8) { VPrintf(1, "Undo and keep block unpacked\n"); MprotectReadOnly(reinterpret_cast(ptr), kBlockSizeBytes); store->Unmap(packed, kBlockSizeBytes); state = State::Unpacked; return 0; } uptr packed_size_aligned = RoundUpTo(header->size, GetPageSizeCached()); store->Unmap(packed + packed_size_aligned, kBlockSizeBytes - packed_size_aligned); MprotectReadOnly(reinterpret_cast(packed), packed_size_aligned); atomic_store(&data_, reinterpret_cast(packed), memory_order_release); store->Unmap(ptr, kBlockSizeBytes); state = State::Packed; return kBlockSizeBytes - packed_size_aligned; } void StackStore::BlockInfo::TestOnlyUnmap(StackStore *store) { if (uptr *ptr = Get()) store->Unmap(ptr, kBlockSizeBytes); } bool StackStore::BlockInfo::Stored(uptr n) { return n + atomic_fetch_add(&stored_, n, memory_order_release) == kBlockSizeFrames; } bool StackStore::BlockInfo::IsPacked() const { SpinMutexLock l(&mtx_); return state == State::Packed; } } // namespace __sanitizer