forked from OSchip/llvm-project
201 lines
5.6 KiB
C++
201 lines
5.6 KiB
C++
//===-- hwasan_thread_list.h ------------------------------------*- C++ -*-===//
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//
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// The LLVM Compiler Infrastructure
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//
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// This file is distributed under the University of Illinois Open Source
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// License. See LICENSE.TXT for details.
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//
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//===----------------------------------------------------------------------===//
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//
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// This file is a part of HWAddressSanitizer.
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//
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//===----------------------------------------------------------------------===//
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// HwasanThreadList is a registry for live threads, as well as an allocator for
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// HwasanThread objects and their stack history ring buffers. There are
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// constraints on memory layout of the shadow region and CompactRingBuffer that
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// are part of the ABI contract between compiler-rt and llvm.
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//
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// * Start of the shadow memory region is aligned to 2**kShadowBaseAlignment.
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// * All stack ring buffers are located within (2**kShadowBaseAlignment)
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// sized region below and adjacent to the shadow region.
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// * Each ring buffer has a size of (2**N)*4096 where N is in [0, 8), and is
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// aligned to twice its size. The value of N can be different for each buffer.
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//
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// These constrains guarantee that, given an address A of any element of the
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// ring buffer,
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// A_next = (A + sizeof(uptr)) & ~((1 << (N + 13)) - 1)
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// is the address of the next element of that ring buffer (with wrap-around).
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// And, with K = kShadowBaseAlignment,
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// S = (A | ((1 << K) - 1)) + 1
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// (align up to kShadowBaseAlignment) is the start of the shadow region.
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//
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// These calculations are used in compiler instrumentation to update the ring
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// buffer and obtain the base address of shadow using only two inputs: address
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// of the current element of the ring buffer, and N (i.e. size of the ring
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// buffer). Since the value of N is very limited, we pack both inputs into a
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// single thread-local word as
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// (1 << (N + 56)) | A
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// See the implementation of class CompactRingBuffer, which is what is stored in
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// said thread-local word.
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//
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// Note the unusual way of aligning up the address of the shadow:
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// (A | ((1 << K) - 1)) + 1
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// It is only correct if A is not already equal to the shadow base address, but
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// it saves 2 instructions on AArch64.
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#include "hwasan.h"
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#include "hwasan_allocator.h"
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#include "hwasan_flags.h"
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#include "hwasan_thread.h"
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#include "sanitizer_common/sanitizer_placement_new.h"
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namespace __hwasan {
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static uptr RingBufferSize() {
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uptr desired_bytes = flags()->stack_history_size * sizeof(uptr);
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// FIXME: increase the limit to 8 once this bug is fixed:
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// https://bugs.llvm.org/show_bug.cgi?id=39030
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for (int shift = 1; shift < 7; ++shift) {
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uptr size = 4096 * (1ULL << shift);
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if (size >= desired_bytes)
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return size;
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}
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Printf("stack history size too large: %d\n", flags()->stack_history_size);
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CHECK(0);
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return 0;
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}
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struct ThreadListHead {
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Thread *list_;
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ThreadListHead() : list_(nullptr) {}
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void Push(Thread *t) {
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t->next_ = list_;
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list_ = t;
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}
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Thread *Pop() {
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Thread *t = list_;
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if (t)
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list_ = t->next_;
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return t;
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}
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void Remove(Thread *t) {
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Thread **cur = &list_;
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while (*cur != t) cur = &(*cur)->next_;
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CHECK(*cur && "thread not found");
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*cur = (*cur)->next_;
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}
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template <class CB>
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void ForEach(CB cb) {
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Thread *t = list_;
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while (t) {
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cb(t);
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t = t->next_;
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}
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}
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};
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struct ThreadStats {
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uptr n_live_threads;
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uptr total_stack_size;
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};
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class HwasanThreadList {
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public:
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HwasanThreadList(uptr storage, uptr size)
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: free_space_(storage),
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free_space_end_(storage + size),
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ring_buffer_size_(RingBufferSize()) {}
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Thread *CreateCurrentThread() {
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Thread *t;
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{
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SpinMutexLock l(&list_mutex_);
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t = free_list_.Pop();
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if (t)
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internal_memset((void *)t, 0, sizeof(Thread) + ring_buffer_size_);
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else
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t = AllocThread();
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live_list_.Push(t);
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}
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t->Init((uptr)(t + 1), ring_buffer_size_);
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AddThreadStats(t);
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return t;
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}
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void ReleaseThread(Thread *t) {
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// FIXME: madvise away the ring buffer?
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RemoveThreadStats(t);
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t->Destroy();
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SpinMutexLock l(&list_mutex_);
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live_list_.Remove(t);
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free_list_.Push(t);
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}
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Thread *GetThreadByBufferAddress(uptr p) {
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uptr align = ring_buffer_size_ * 2;
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return (Thread *)(RoundDownTo(p, align) - sizeof(Thread));
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}
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uptr MemoryUsedPerThread() {
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uptr res = sizeof(Thread) + ring_buffer_size_;
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if (auto sz = flags()->heap_history_size)
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res += HeapAllocationsRingBuffer::SizeInBytes(sz);
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return res;
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}
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template <class CB>
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void VisitAllLiveThreads(CB cb) {
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SpinMutexLock l(&list_mutex_);
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live_list_.ForEach(cb);
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}
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void AddThreadStats(Thread *t) {
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SpinMutexLock l(&stats_mutex_);
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stats_.n_live_threads++;
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stats_.total_stack_size += t->stack_size();
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}
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void RemoveThreadStats(Thread *t) {
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SpinMutexLock l(&stats_mutex_);
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stats_.n_live_threads--;
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stats_.total_stack_size -= t->stack_size();
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}
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ThreadStats GetThreadStats() {
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SpinMutexLock l(&stats_mutex_);
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return stats_;
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}
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private:
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Thread *AllocThread() {
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uptr align = ring_buffer_size_ * 2;
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uptr ring_buffer_start = RoundUpTo(free_space_ + sizeof(Thread), align);
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free_space_ = ring_buffer_start + ring_buffer_size_;
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CHECK(free_space_ <= free_space_end_ && "out of thread memory");
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return (Thread *)(ring_buffer_start - sizeof(Thread));
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}
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uptr free_space_;
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uptr free_space_end_;
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uptr ring_buffer_size_;
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ThreadListHead free_list_;
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ThreadListHead live_list_;
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SpinMutex list_mutex_;
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ThreadStats stats_;
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SpinMutex stats_mutex_;
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};
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void InitThreadList(uptr storage, uptr size);
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HwasanThreadList &hwasanThreadList();
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} // namespace
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