b667dd7017
2019-08-14 Martin Liska <mliska@suse.cz> PR sanitizer/89832 PR sanitizer/91325 * All source files: Merge from upstream 368656. From-SVN: r274426
283 lines
11 KiB
C++
283 lines
11 KiB
C++
//===-- asan_fake_stack.cpp -----------------------------------------------===//
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//
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// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
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// See https://llvm.org/LICENSE.txt for license information.
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// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
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//
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//===----------------------------------------------------------------------===//
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//
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// This file is a part of AddressSanitizer, an address sanity checker.
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//
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// FakeStack is used to detect use-after-return bugs.
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//===----------------------------------------------------------------------===//
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#include "asan_allocator.h"
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#include "asan_poisoning.h"
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#include "asan_thread.h"
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namespace __asan {
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static const u64 kMagic1 = kAsanStackAfterReturnMagic;
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static const u64 kMagic2 = (kMagic1 << 8) | kMagic1;
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static const u64 kMagic4 = (kMagic2 << 16) | kMagic2;
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static const u64 kMagic8 = (kMagic4 << 32) | kMagic4;
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static const u64 kAllocaRedzoneSize = 32UL;
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static const u64 kAllocaRedzoneMask = 31UL;
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// For small size classes inline PoisonShadow for better performance.
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ALWAYS_INLINE void SetShadow(uptr ptr, uptr size, uptr class_id, u64 magic) {
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u64 *shadow = reinterpret_cast<u64*>(MemToShadow(ptr));
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if (SHADOW_SCALE == 3 && class_id <= 6) {
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// This code expects SHADOW_SCALE=3.
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for (uptr i = 0; i < (((uptr)1) << class_id); i++) {
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shadow[i] = magic;
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// Make sure this does not become memset.
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SanitizerBreakOptimization(nullptr);
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}
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} else {
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// The size class is too big, it's cheaper to poison only size bytes.
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PoisonShadow(ptr, size, static_cast<u8>(magic));
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}
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}
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FakeStack *FakeStack::Create(uptr stack_size_log) {
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static uptr kMinStackSizeLog = 16;
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static uptr kMaxStackSizeLog = FIRST_32_SECOND_64(24, 28);
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if (stack_size_log < kMinStackSizeLog)
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stack_size_log = kMinStackSizeLog;
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if (stack_size_log > kMaxStackSizeLog)
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stack_size_log = kMaxStackSizeLog;
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uptr size = RequiredSize(stack_size_log);
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FakeStack *res = reinterpret_cast<FakeStack *>(
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flags()->uar_noreserve ? MmapNoReserveOrDie(size, "FakeStack")
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: MmapOrDie(size, "FakeStack"));
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res->stack_size_log_ = stack_size_log;
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u8 *p = reinterpret_cast<u8 *>(res);
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VReport(1, "T%d: FakeStack created: %p -- %p stack_size_log: %zd; "
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"mmapped %zdK, noreserve=%d \n",
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GetCurrentTidOrInvalid(), p,
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p + FakeStack::RequiredSize(stack_size_log), stack_size_log,
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size >> 10, flags()->uar_noreserve);
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return res;
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}
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void FakeStack::Destroy(int tid) {
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PoisonAll(0);
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if (Verbosity() >= 2) {
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InternalScopedString str(kNumberOfSizeClasses * 50);
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for (uptr class_id = 0; class_id < kNumberOfSizeClasses; class_id++)
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str.append("%zd: %zd/%zd; ", class_id, hint_position_[class_id],
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NumberOfFrames(stack_size_log(), class_id));
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Report("T%d: FakeStack destroyed: %s\n", tid, str.data());
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}
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uptr size = RequiredSize(stack_size_log_);
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FlushUnneededASanShadowMemory(reinterpret_cast<uptr>(this), size);
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UnmapOrDie(this, size);
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}
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void FakeStack::PoisonAll(u8 magic) {
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PoisonShadow(reinterpret_cast<uptr>(this), RequiredSize(stack_size_log()),
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magic);
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}
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#if !defined(_MSC_VER) || defined(__clang__)
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ALWAYS_INLINE USED
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#endif
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FakeFrame *FakeStack::Allocate(uptr stack_size_log, uptr class_id,
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uptr real_stack) {
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CHECK_LT(class_id, kNumberOfSizeClasses);
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if (needs_gc_)
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GC(real_stack);
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uptr &hint_position = hint_position_[class_id];
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const int num_iter = NumberOfFrames(stack_size_log, class_id);
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u8 *flags = GetFlags(stack_size_log, class_id);
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for (int i = 0; i < num_iter; i++) {
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uptr pos = ModuloNumberOfFrames(stack_size_log, class_id, hint_position++);
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// This part is tricky. On one hand, checking and setting flags[pos]
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// should be atomic to ensure async-signal safety. But on the other hand,
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// if the signal arrives between checking and setting flags[pos], the
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// signal handler's fake stack will start from a different hint_position
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// and so will not touch this particular byte. So, it is safe to do this
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// with regular non-atomic load and store (at least I was not able to make
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// this code crash).
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if (flags[pos]) continue;
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flags[pos] = 1;
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FakeFrame *res = reinterpret_cast<FakeFrame *>(
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GetFrame(stack_size_log, class_id, pos));
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res->real_stack = real_stack;
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*SavedFlagPtr(reinterpret_cast<uptr>(res), class_id) = &flags[pos];
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return res;
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}
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return nullptr; // We are out of fake stack.
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}
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uptr FakeStack::AddrIsInFakeStack(uptr ptr, uptr *frame_beg, uptr *frame_end) {
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uptr stack_size_log = this->stack_size_log();
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uptr beg = reinterpret_cast<uptr>(GetFrame(stack_size_log, 0, 0));
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uptr end = reinterpret_cast<uptr>(this) + RequiredSize(stack_size_log);
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if (ptr < beg || ptr >= end) return 0;
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uptr class_id = (ptr - beg) >> stack_size_log;
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uptr base = beg + (class_id << stack_size_log);
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CHECK_LE(base, ptr);
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CHECK_LT(ptr, base + (((uptr)1) << stack_size_log));
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uptr pos = (ptr - base) >> (kMinStackFrameSizeLog + class_id);
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uptr res = base + pos * BytesInSizeClass(class_id);
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*frame_end = res + BytesInSizeClass(class_id);
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*frame_beg = res + sizeof(FakeFrame);
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return res;
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}
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void FakeStack::HandleNoReturn() {
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needs_gc_ = true;
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}
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// When throw, longjmp or some such happens we don't call OnFree() and
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// as the result may leak one or more fake frames, but the good news is that
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// we are notified about all such events by HandleNoReturn().
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// If we recently had such no-return event we need to collect garbage frames.
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// We do it based on their 'real_stack' values -- everything that is lower
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// than the current real_stack is garbage.
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NOINLINE void FakeStack::GC(uptr real_stack) {
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uptr collected = 0;
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for (uptr class_id = 0; class_id < kNumberOfSizeClasses; class_id++) {
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u8 *flags = GetFlags(stack_size_log(), class_id);
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for (uptr i = 0, n = NumberOfFrames(stack_size_log(), class_id); i < n;
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i++) {
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if (flags[i] == 0) continue; // not allocated.
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FakeFrame *ff = reinterpret_cast<FakeFrame *>(
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GetFrame(stack_size_log(), class_id, i));
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if (ff->real_stack < real_stack) {
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flags[i] = 0;
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collected++;
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}
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}
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}
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needs_gc_ = false;
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}
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void FakeStack::ForEachFakeFrame(RangeIteratorCallback callback, void *arg) {
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for (uptr class_id = 0; class_id < kNumberOfSizeClasses; class_id++) {
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u8 *flags = GetFlags(stack_size_log(), class_id);
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for (uptr i = 0, n = NumberOfFrames(stack_size_log(), class_id); i < n;
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i++) {
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if (flags[i] == 0) continue; // not allocated.
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FakeFrame *ff = reinterpret_cast<FakeFrame *>(
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GetFrame(stack_size_log(), class_id, i));
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uptr begin = reinterpret_cast<uptr>(ff);
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callback(begin, begin + FakeStack::BytesInSizeClass(class_id), arg);
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}
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}
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}
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#if (SANITIZER_LINUX && !SANITIZER_ANDROID) || SANITIZER_FUCHSIA
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static THREADLOCAL FakeStack *fake_stack_tls;
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FakeStack *GetTLSFakeStack() {
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return fake_stack_tls;
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}
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void SetTLSFakeStack(FakeStack *fs) {
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fake_stack_tls = fs;
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}
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#else
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FakeStack *GetTLSFakeStack() { return 0; }
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void SetTLSFakeStack(FakeStack *fs) { }
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#endif // (SANITIZER_LINUX && !SANITIZER_ANDROID) || SANITIZER_FUCHSIA
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static FakeStack *GetFakeStack() {
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AsanThread *t = GetCurrentThread();
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if (!t) return nullptr;
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return t->fake_stack();
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}
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static FakeStack *GetFakeStackFast() {
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if (FakeStack *fs = GetTLSFakeStack())
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return fs;
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if (!__asan_option_detect_stack_use_after_return)
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return nullptr;
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return GetFakeStack();
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}
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ALWAYS_INLINE uptr OnMalloc(uptr class_id, uptr size) {
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FakeStack *fs = GetFakeStackFast();
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if (!fs) return 0;
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uptr local_stack;
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uptr real_stack = reinterpret_cast<uptr>(&local_stack);
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FakeFrame *ff = fs->Allocate(fs->stack_size_log(), class_id, real_stack);
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if (!ff) return 0; // Out of fake stack.
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uptr ptr = reinterpret_cast<uptr>(ff);
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SetShadow(ptr, size, class_id, 0);
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return ptr;
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}
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ALWAYS_INLINE void OnFree(uptr ptr, uptr class_id, uptr size) {
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FakeStack::Deallocate(ptr, class_id);
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SetShadow(ptr, size, class_id, kMagic8);
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}
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} // namespace __asan
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// ---------------------- Interface ---------------- {{{1
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using namespace __asan;
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#define DEFINE_STACK_MALLOC_FREE_WITH_CLASS_ID(class_id) \
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extern "C" SANITIZER_INTERFACE_ATTRIBUTE uptr \
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__asan_stack_malloc_##class_id(uptr size) { \
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return OnMalloc(class_id, size); \
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} \
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extern "C" SANITIZER_INTERFACE_ATTRIBUTE void __asan_stack_free_##class_id( \
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uptr ptr, uptr size) { \
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OnFree(ptr, class_id, size); \
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}
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DEFINE_STACK_MALLOC_FREE_WITH_CLASS_ID(0)
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DEFINE_STACK_MALLOC_FREE_WITH_CLASS_ID(1)
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DEFINE_STACK_MALLOC_FREE_WITH_CLASS_ID(2)
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DEFINE_STACK_MALLOC_FREE_WITH_CLASS_ID(3)
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DEFINE_STACK_MALLOC_FREE_WITH_CLASS_ID(4)
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DEFINE_STACK_MALLOC_FREE_WITH_CLASS_ID(5)
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DEFINE_STACK_MALLOC_FREE_WITH_CLASS_ID(6)
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DEFINE_STACK_MALLOC_FREE_WITH_CLASS_ID(7)
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DEFINE_STACK_MALLOC_FREE_WITH_CLASS_ID(8)
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DEFINE_STACK_MALLOC_FREE_WITH_CLASS_ID(9)
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DEFINE_STACK_MALLOC_FREE_WITH_CLASS_ID(10)
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extern "C" {
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SANITIZER_INTERFACE_ATTRIBUTE
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void *__asan_get_current_fake_stack() { return GetFakeStackFast(); }
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SANITIZER_INTERFACE_ATTRIBUTE
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void *__asan_addr_is_in_fake_stack(void *fake_stack, void *addr, void **beg,
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void **end) {
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FakeStack *fs = reinterpret_cast<FakeStack*>(fake_stack);
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if (!fs) return nullptr;
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uptr frame_beg, frame_end;
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FakeFrame *frame = reinterpret_cast<FakeFrame *>(fs->AddrIsInFakeStack(
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reinterpret_cast<uptr>(addr), &frame_beg, &frame_end));
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if (!frame) return nullptr;
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if (frame->magic != kCurrentStackFrameMagic)
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return nullptr;
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if (beg) *beg = reinterpret_cast<void*>(frame_beg);
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if (end) *end = reinterpret_cast<void*>(frame_end);
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return reinterpret_cast<void*>(frame->real_stack);
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}
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SANITIZER_INTERFACE_ATTRIBUTE
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void __asan_alloca_poison(uptr addr, uptr size) {
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uptr LeftRedzoneAddr = addr - kAllocaRedzoneSize;
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uptr PartialRzAddr = addr + size;
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uptr RightRzAddr = (PartialRzAddr + kAllocaRedzoneMask) & ~kAllocaRedzoneMask;
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uptr PartialRzAligned = PartialRzAddr & ~(SHADOW_GRANULARITY - 1);
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FastPoisonShadow(LeftRedzoneAddr, kAllocaRedzoneSize, kAsanAllocaLeftMagic);
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FastPoisonShadowPartialRightRedzone(
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PartialRzAligned, PartialRzAddr % SHADOW_GRANULARITY,
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RightRzAddr - PartialRzAligned, kAsanAllocaRightMagic);
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FastPoisonShadow(RightRzAddr, kAllocaRedzoneSize, kAsanAllocaRightMagic);
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}
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SANITIZER_INTERFACE_ATTRIBUTE
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void __asan_allocas_unpoison(uptr top, uptr bottom) {
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if ((!top) || (top > bottom)) return;
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REAL(memset)(reinterpret_cast<void*>(MemToShadow(top)), 0,
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(bottom - top) / SHADOW_GRANULARITY);
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}
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} // extern "C"
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