3ca75cd550
2019-11-05 Martin Liska <mliska@suse.cz> * all source files: Merge from upstream r375507. From-SVN: r277834
461 lines
16 KiB
C++
461 lines
16 KiB
C++
//===-- asan_poisoning.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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// Shadow memory poisoning by ASan RTL and by user application.
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//===----------------------------------------------------------------------===//
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#include "asan_poisoning.h"
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#include "asan_report.h"
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#include "asan_stack.h"
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#include "sanitizer_common/sanitizer_atomic.h"
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#include "sanitizer_common/sanitizer_libc.h"
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#include "sanitizer_common/sanitizer_flags.h"
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namespace __asan {
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static atomic_uint8_t can_poison_memory;
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void SetCanPoisonMemory(bool value) {
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atomic_store(&can_poison_memory, value, memory_order_release);
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}
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bool CanPoisonMemory() {
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return atomic_load(&can_poison_memory, memory_order_acquire);
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}
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void PoisonShadow(uptr addr, uptr size, u8 value) {
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if (value && !CanPoisonMemory()) return;
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CHECK(AddrIsAlignedByGranularity(addr));
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CHECK(AddrIsInMem(addr));
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CHECK(AddrIsAlignedByGranularity(addr + size));
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CHECK(AddrIsInMem(addr + size - SHADOW_GRANULARITY));
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CHECK(REAL(memset));
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FastPoisonShadow(addr, size, value);
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}
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void PoisonShadowPartialRightRedzone(uptr addr,
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uptr size,
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uptr redzone_size,
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u8 value) {
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if (!CanPoisonMemory()) return;
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CHECK(AddrIsAlignedByGranularity(addr));
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CHECK(AddrIsInMem(addr));
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FastPoisonShadowPartialRightRedzone(addr, size, redzone_size, value);
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}
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struct ShadowSegmentEndpoint {
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u8 *chunk;
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s8 offset; // in [0, SHADOW_GRANULARITY)
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s8 value; // = *chunk;
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explicit ShadowSegmentEndpoint(uptr address) {
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chunk = (u8*)MemToShadow(address);
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offset = address & (SHADOW_GRANULARITY - 1);
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value = *chunk;
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}
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};
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void FlushUnneededASanShadowMemory(uptr p, uptr size) {
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// Since asan's mapping is compacting, the shadow chunk may be
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// not page-aligned, so we only flush the page-aligned portion.
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ReleaseMemoryPagesToOS(MemToShadow(p), MemToShadow(p + size));
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}
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void AsanPoisonOrUnpoisonIntraObjectRedzone(uptr ptr, uptr size, bool poison) {
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uptr end = ptr + size;
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if (Verbosity()) {
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Printf("__asan_%spoison_intra_object_redzone [%p,%p) %zd\n",
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poison ? "" : "un", ptr, end, size);
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if (Verbosity() >= 2)
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PRINT_CURRENT_STACK();
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}
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CHECK(size);
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CHECK_LE(size, 4096);
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CHECK(IsAligned(end, SHADOW_GRANULARITY));
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if (!IsAligned(ptr, SHADOW_GRANULARITY)) {
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*(u8 *)MemToShadow(ptr) =
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poison ? static_cast<u8>(ptr % SHADOW_GRANULARITY) : 0;
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ptr |= SHADOW_GRANULARITY - 1;
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ptr++;
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}
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for (; ptr < end; ptr += SHADOW_GRANULARITY)
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*(u8*)MemToShadow(ptr) = poison ? kAsanIntraObjectRedzone : 0;
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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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// Current implementation of __asan_(un)poison_memory_region doesn't check
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// that user program (un)poisons the memory it owns. It poisons memory
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// conservatively, and unpoisons progressively to make sure asan shadow
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// mapping invariant is preserved (see detailed mapping description here:
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// https://github.com/google/sanitizers/wiki/AddressSanitizerAlgorithm).
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//
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// * if user asks to poison region [left, right), the program poisons
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// at least [left, AlignDown(right)).
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// * if user asks to unpoison region [left, right), the program unpoisons
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// at most [AlignDown(left), right).
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void __asan_poison_memory_region(void const volatile *addr, uptr size) {
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if (!flags()->allow_user_poisoning || size == 0) return;
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uptr beg_addr = (uptr)addr;
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uptr end_addr = beg_addr + size;
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VPrintf(3, "Trying to poison memory region [%p, %p)\n", (void *)beg_addr,
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(void *)end_addr);
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ShadowSegmentEndpoint beg(beg_addr);
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ShadowSegmentEndpoint end(end_addr);
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if (beg.chunk == end.chunk) {
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CHECK_LT(beg.offset, end.offset);
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s8 value = beg.value;
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CHECK_EQ(value, end.value);
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// We can only poison memory if the byte in end.offset is unaddressable.
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// No need to re-poison memory if it is poisoned already.
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if (value > 0 && value <= end.offset) {
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if (beg.offset > 0) {
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*beg.chunk = Min(value, beg.offset);
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} else {
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*beg.chunk = kAsanUserPoisonedMemoryMagic;
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}
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}
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return;
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}
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CHECK_LT(beg.chunk, end.chunk);
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if (beg.offset > 0) {
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// Mark bytes from beg.offset as unaddressable.
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if (beg.value == 0) {
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*beg.chunk = beg.offset;
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} else {
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*beg.chunk = Min(beg.value, beg.offset);
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}
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beg.chunk++;
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}
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REAL(memset)(beg.chunk, kAsanUserPoisonedMemoryMagic, end.chunk - beg.chunk);
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// Poison if byte in end.offset is unaddressable.
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if (end.value > 0 && end.value <= end.offset) {
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*end.chunk = kAsanUserPoisonedMemoryMagic;
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}
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}
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void __asan_unpoison_memory_region(void const volatile *addr, uptr size) {
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if (!flags()->allow_user_poisoning || size == 0) return;
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uptr beg_addr = (uptr)addr;
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uptr end_addr = beg_addr + size;
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VPrintf(3, "Trying to unpoison memory region [%p, %p)\n", (void *)beg_addr,
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(void *)end_addr);
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ShadowSegmentEndpoint beg(beg_addr);
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ShadowSegmentEndpoint end(end_addr);
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if (beg.chunk == end.chunk) {
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CHECK_LT(beg.offset, end.offset);
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s8 value = beg.value;
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CHECK_EQ(value, end.value);
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// We unpoison memory bytes up to enbytes up to end.offset if it is not
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// unpoisoned already.
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if (value != 0) {
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*beg.chunk = Max(value, end.offset);
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}
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return;
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}
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CHECK_LT(beg.chunk, end.chunk);
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if (beg.offset > 0) {
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*beg.chunk = 0;
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beg.chunk++;
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}
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REAL(memset)(beg.chunk, 0, end.chunk - beg.chunk);
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if (end.offset > 0 && end.value != 0) {
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*end.chunk = Max(end.value, end.offset);
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}
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}
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int __asan_address_is_poisoned(void const volatile *addr) {
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return __asan::AddressIsPoisoned((uptr)addr);
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}
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uptr __asan_region_is_poisoned(uptr beg, uptr size) {
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if (!size) return 0;
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uptr end = beg + size;
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if (SANITIZER_MYRIAD2) {
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// On Myriad, address not in DRAM range need to be treated as
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// unpoisoned.
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if (!AddrIsInMem(beg) && !AddrIsInShadow(beg)) return 0;
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if (!AddrIsInMem(end) && !AddrIsInShadow(end)) return 0;
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} else {
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if (!AddrIsInMem(beg)) return beg;
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if (!AddrIsInMem(end)) return end;
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}
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CHECK_LT(beg, end);
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uptr aligned_b = RoundUpTo(beg, SHADOW_GRANULARITY);
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uptr aligned_e = RoundDownTo(end, SHADOW_GRANULARITY);
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uptr shadow_beg = MemToShadow(aligned_b);
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uptr shadow_end = MemToShadow(aligned_e);
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// First check the first and the last application bytes,
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// then check the SHADOW_GRANULARITY-aligned region by calling
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// mem_is_zero on the corresponding shadow.
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if (!__asan::AddressIsPoisoned(beg) &&
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!__asan::AddressIsPoisoned(end - 1) &&
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(shadow_end <= shadow_beg ||
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__sanitizer::mem_is_zero((const char *)shadow_beg,
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shadow_end - shadow_beg)))
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return 0;
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// The fast check failed, so we have a poisoned byte somewhere.
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// Find it slowly.
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for (; beg < end; beg++)
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if (__asan::AddressIsPoisoned(beg))
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return beg;
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UNREACHABLE("mem_is_zero returned false, but poisoned byte was not found");
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return 0;
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}
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#define CHECK_SMALL_REGION(p, size, isWrite) \
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do { \
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uptr __p = reinterpret_cast<uptr>(p); \
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uptr __size = size; \
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if (UNLIKELY(__asan::AddressIsPoisoned(__p) || \
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__asan::AddressIsPoisoned(__p + __size - 1))) { \
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GET_CURRENT_PC_BP_SP; \
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uptr __bad = __asan_region_is_poisoned(__p, __size); \
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__asan_report_error(pc, bp, sp, __bad, isWrite, __size, 0);\
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} \
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} while (false)
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extern "C" SANITIZER_INTERFACE_ATTRIBUTE
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u16 __sanitizer_unaligned_load16(const uu16 *p) {
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CHECK_SMALL_REGION(p, sizeof(*p), false);
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return *p;
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}
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extern "C" SANITIZER_INTERFACE_ATTRIBUTE
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u32 __sanitizer_unaligned_load32(const uu32 *p) {
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CHECK_SMALL_REGION(p, sizeof(*p), false);
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return *p;
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}
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extern "C" SANITIZER_INTERFACE_ATTRIBUTE
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u64 __sanitizer_unaligned_load64(const uu64 *p) {
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CHECK_SMALL_REGION(p, sizeof(*p), false);
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return *p;
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}
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extern "C" SANITIZER_INTERFACE_ATTRIBUTE
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void __sanitizer_unaligned_store16(uu16 *p, u16 x) {
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CHECK_SMALL_REGION(p, sizeof(*p), true);
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*p = x;
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}
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extern "C" SANITIZER_INTERFACE_ATTRIBUTE
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void __sanitizer_unaligned_store32(uu32 *p, u32 x) {
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CHECK_SMALL_REGION(p, sizeof(*p), true);
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*p = x;
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}
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extern "C" SANITIZER_INTERFACE_ATTRIBUTE
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void __sanitizer_unaligned_store64(uu64 *p, u64 x) {
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CHECK_SMALL_REGION(p, sizeof(*p), true);
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*p = x;
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}
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extern "C" SANITIZER_INTERFACE_ATTRIBUTE
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void __asan_poison_cxx_array_cookie(uptr p) {
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if (SANITIZER_WORDSIZE != 64) return;
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if (!flags()->poison_array_cookie) return;
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uptr s = MEM_TO_SHADOW(p);
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*reinterpret_cast<u8*>(s) = kAsanArrayCookieMagic;
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}
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extern "C" SANITIZER_INTERFACE_ATTRIBUTE
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uptr __asan_load_cxx_array_cookie(uptr *p) {
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if (SANITIZER_WORDSIZE != 64) return *p;
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if (!flags()->poison_array_cookie) return *p;
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uptr s = MEM_TO_SHADOW(reinterpret_cast<uptr>(p));
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u8 sval = *reinterpret_cast<u8*>(s);
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if (sval == kAsanArrayCookieMagic) return *p;
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// If sval is not kAsanArrayCookieMagic it can only be freed memory,
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// which means that we are going to get double-free. So, return 0 to avoid
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// infinite loop of destructors. We don't want to report a double-free here
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// though, so print a warning just in case.
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// CHECK_EQ(sval, kAsanHeapFreeMagic);
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if (sval == kAsanHeapFreeMagic) {
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Report("AddressSanitizer: loaded array cookie from free-d memory; "
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"expect a double-free report\n");
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return 0;
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}
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// The cookie may remain unpoisoned if e.g. it comes from a custom
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// operator new defined inside a class.
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return *p;
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}
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// This is a simplified version of __asan_(un)poison_memory_region, which
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// assumes that left border of region to be poisoned is properly aligned.
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static void PoisonAlignedStackMemory(uptr addr, uptr size, bool do_poison) {
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if (size == 0) return;
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uptr aligned_size = size & ~(SHADOW_GRANULARITY - 1);
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PoisonShadow(addr, aligned_size,
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do_poison ? kAsanStackUseAfterScopeMagic : 0);
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if (size == aligned_size)
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return;
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s8 end_offset = (s8)(size - aligned_size);
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s8* shadow_end = (s8*)MemToShadow(addr + aligned_size);
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s8 end_value = *shadow_end;
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if (do_poison) {
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// If possible, mark all the bytes mapping to last shadow byte as
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// unaddressable.
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if (end_value > 0 && end_value <= end_offset)
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*shadow_end = (s8)kAsanStackUseAfterScopeMagic;
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} else {
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// If necessary, mark few first bytes mapping to last shadow byte
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// as addressable
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if (end_value != 0)
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*shadow_end = Max(end_value, end_offset);
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}
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}
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void __asan_set_shadow_00(uptr addr, uptr size) {
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REAL(memset)((void *)addr, 0, size);
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}
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void __asan_set_shadow_f1(uptr addr, uptr size) {
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REAL(memset)((void *)addr, 0xf1, size);
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}
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void __asan_set_shadow_f2(uptr addr, uptr size) {
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REAL(memset)((void *)addr, 0xf2, size);
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}
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void __asan_set_shadow_f3(uptr addr, uptr size) {
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REAL(memset)((void *)addr, 0xf3, size);
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}
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void __asan_set_shadow_f5(uptr addr, uptr size) {
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REAL(memset)((void *)addr, 0xf5, size);
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}
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void __asan_set_shadow_f8(uptr addr, uptr size) {
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REAL(memset)((void *)addr, 0xf8, size);
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}
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void __asan_poison_stack_memory(uptr addr, uptr size) {
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VReport(1, "poisoning: %p %zx\n", (void *)addr, size);
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PoisonAlignedStackMemory(addr, size, true);
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}
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void __asan_unpoison_stack_memory(uptr addr, uptr size) {
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VReport(1, "unpoisoning: %p %zx\n", (void *)addr, size);
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PoisonAlignedStackMemory(addr, size, false);
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}
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void __sanitizer_annotate_contiguous_container(const void *beg_p,
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const void *end_p,
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const void *old_mid_p,
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const void *new_mid_p) {
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if (!flags()->detect_container_overflow) return;
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VPrintf(2, "contiguous_container: %p %p %p %p\n", beg_p, end_p, old_mid_p,
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new_mid_p);
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uptr beg = reinterpret_cast<uptr>(beg_p);
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uptr end = reinterpret_cast<uptr>(end_p);
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uptr old_mid = reinterpret_cast<uptr>(old_mid_p);
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uptr new_mid = reinterpret_cast<uptr>(new_mid_p);
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uptr granularity = SHADOW_GRANULARITY;
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if (!(beg <= old_mid && beg <= new_mid && old_mid <= end && new_mid <= end &&
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IsAligned(beg, granularity))) {
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GET_STACK_TRACE_FATAL_HERE;
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ReportBadParamsToAnnotateContiguousContainer(beg, end, old_mid, new_mid,
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&stack);
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}
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CHECK_LE(end - beg,
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FIRST_32_SECOND_64(1UL << 30, 1ULL << 34)); // Sanity check.
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uptr a = RoundDownTo(Min(old_mid, new_mid), granularity);
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uptr c = RoundUpTo(Max(old_mid, new_mid), granularity);
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uptr d1 = RoundDownTo(old_mid, granularity);
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// uptr d2 = RoundUpTo(old_mid, granularity);
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// Currently we should be in this state:
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// [a, d1) is good, [d2, c) is bad, [d1, d2) is partially good.
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// Make a quick sanity check that we are indeed in this state.
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//
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// FIXME: Two of these three checks are disabled until we fix
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// https://github.com/google/sanitizers/issues/258.
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// if (d1 != d2)
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// CHECK_EQ(*(u8*)MemToShadow(d1), old_mid - d1);
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if (a + granularity <= d1)
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CHECK_EQ(*(u8*)MemToShadow(a), 0);
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// if (d2 + granularity <= c && c <= end)
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// CHECK_EQ(*(u8 *)MemToShadow(c - granularity),
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// kAsanContiguousContainerOOBMagic);
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uptr b1 = RoundDownTo(new_mid, granularity);
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uptr b2 = RoundUpTo(new_mid, granularity);
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// New state:
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// [a, b1) is good, [b2, c) is bad, [b1, b2) is partially good.
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PoisonShadow(a, b1 - a, 0);
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PoisonShadow(b2, c - b2, kAsanContiguousContainerOOBMagic);
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if (b1 != b2) {
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CHECK_EQ(b2 - b1, granularity);
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*(u8*)MemToShadow(b1) = static_cast<u8>(new_mid - b1);
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}
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}
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const void *__sanitizer_contiguous_container_find_bad_address(
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const void *beg_p, const void *mid_p, const void *end_p) {
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if (!flags()->detect_container_overflow)
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return nullptr;
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uptr beg = reinterpret_cast<uptr>(beg_p);
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uptr end = reinterpret_cast<uptr>(end_p);
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uptr mid = reinterpret_cast<uptr>(mid_p);
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CHECK_LE(beg, mid);
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CHECK_LE(mid, end);
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// Check some bytes starting from beg, some bytes around mid, and some bytes
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// ending with end.
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uptr kMaxRangeToCheck = 32;
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uptr r1_beg = beg;
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uptr r1_end = Min(beg + kMaxRangeToCheck, mid);
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uptr r2_beg = Max(beg, mid - kMaxRangeToCheck);
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uptr r2_end = Min(end, mid + kMaxRangeToCheck);
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uptr r3_beg = Max(end - kMaxRangeToCheck, mid);
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uptr r3_end = end;
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for (uptr i = r1_beg; i < r1_end; i++)
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if (AddressIsPoisoned(i))
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return reinterpret_cast<const void *>(i);
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for (uptr i = r2_beg; i < mid; i++)
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if (AddressIsPoisoned(i))
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return reinterpret_cast<const void *>(i);
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for (uptr i = mid; i < r2_end; i++)
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if (!AddressIsPoisoned(i))
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return reinterpret_cast<const void *>(i);
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for (uptr i = r3_beg; i < r3_end; i++)
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if (!AddressIsPoisoned(i))
|
|
return reinterpret_cast<const void *>(i);
|
|
return nullptr;
|
|
}
|
|
|
|
int __sanitizer_verify_contiguous_container(const void *beg_p,
|
|
const void *mid_p,
|
|
const void *end_p) {
|
|
return __sanitizer_contiguous_container_find_bad_address(beg_p, mid_p,
|
|
end_p) == nullptr;
|
|
}
|
|
|
|
extern "C" SANITIZER_INTERFACE_ATTRIBUTE
|
|
void __asan_poison_intra_object_redzone(uptr ptr, uptr size) {
|
|
AsanPoisonOrUnpoisonIntraObjectRedzone(ptr, size, true);
|
|
}
|
|
|
|
extern "C" SANITIZER_INTERFACE_ATTRIBUTE
|
|
void __asan_unpoison_intra_object_redzone(uptr ptr, uptr size) {
|
|
AsanPoisonOrUnpoisonIntraObjectRedzone(ptr, size, false);
|
|
}
|
|
|
|
// --- Implementation of LSan-specific functions --- {{{1
|
|
namespace __lsan {
|
|
bool WordIsPoisoned(uptr addr) {
|
|
return (__asan_region_is_poisoned(addr, sizeof(uptr)) != 0);
|
|
}
|
|
}
|