e297eb600d
From-SVN: r193756
495 lines
17 KiB
C++
495 lines
17 KiB
C++
//===-- asan_report.cc ----------------------------------------------------===//
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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 AddressSanitizer, an address sanity checker.
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//
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// This file contains error reporting code.
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//===----------------------------------------------------------------------===//
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#include "asan_flags.h"
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#include "asan_internal.h"
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#include "asan_mapping.h"
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#include "asan_report.h"
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#include "asan_stack.h"
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#include "asan_thread.h"
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#include "asan_thread_registry.h"
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namespace __asan {
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// -------------------- User-specified callbacks ----------------- {{{1
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static void (*error_report_callback)(const char*);
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static char *error_message_buffer = 0;
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static uptr error_message_buffer_pos = 0;
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static uptr error_message_buffer_size = 0;
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void AppendToErrorMessageBuffer(const char *buffer) {
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if (error_message_buffer) {
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uptr length = internal_strlen(buffer);
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CHECK_GE(error_message_buffer_size, error_message_buffer_pos);
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uptr remaining = error_message_buffer_size - error_message_buffer_pos;
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internal_strncpy(error_message_buffer + error_message_buffer_pos,
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buffer, remaining);
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error_message_buffer[error_message_buffer_size - 1] = '\0';
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// FIXME: reallocate the buffer instead of truncating the message.
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error_message_buffer_pos += remaining > length ? length : remaining;
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}
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}
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// ---------------------- Helper functions ----------------------- {{{1
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static void PrintBytes(const char *before, uptr *a) {
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u8 *bytes = (u8*)a;
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uptr byte_num = (SANITIZER_WORDSIZE) / 8;
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Printf("%s%p:", before, (void*)a);
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for (uptr i = 0; i < byte_num; i++) {
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Printf(" %x%x", bytes[i] >> 4, bytes[i] & 15);
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}
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Printf("\n");
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}
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static void PrintShadowMemoryForAddress(uptr addr) {
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if (!AddrIsInMem(addr))
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return;
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uptr shadow_addr = MemToShadow(addr);
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Printf("Shadow byte and word:\n");
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Printf(" %p: %x\n", (void*)shadow_addr, *(unsigned char*)shadow_addr);
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uptr aligned_shadow = shadow_addr & ~(kWordSize - 1);
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PrintBytes(" ", (uptr*)(aligned_shadow));
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Printf("More shadow bytes:\n");
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for (int i = -4; i <= 4; i++) {
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const char *prefix = (i == 0) ? "=>" : " ";
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PrintBytes(prefix, (uptr*)(aligned_shadow + i * kWordSize));
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}
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}
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static void PrintZoneForPointer(uptr ptr, uptr zone_ptr,
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const char *zone_name) {
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if (zone_ptr) {
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if (zone_name) {
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Printf("malloc_zone_from_ptr(%p) = %p, which is %s\n",
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ptr, zone_ptr, zone_name);
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} else {
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Printf("malloc_zone_from_ptr(%p) = %p, which doesn't have a name\n",
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ptr, zone_ptr);
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}
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} else {
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Printf("malloc_zone_from_ptr(%p) = 0\n", ptr);
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}
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}
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// ---------------------- Address Descriptions ------------------- {{{1
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static bool IsASCII(unsigned char c) {
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return /*0x00 <= c &&*/ c <= 0x7F;
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}
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// Check if the global is a zero-terminated ASCII string. If so, print it.
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static void PrintGlobalNameIfASCII(const __asan_global &g) {
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for (uptr p = g.beg; p < g.beg + g.size - 1; p++) {
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if (!IsASCII(*(unsigned char*)p)) return;
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}
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if (*(char*)(g.beg + g.size - 1) != 0) return;
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Printf(" '%s' is ascii string '%s'\n", g.name, (char*)g.beg);
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}
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bool DescribeAddressRelativeToGlobal(uptr addr, const __asan_global &g) {
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if (addr < g.beg - kGlobalAndStackRedzone) return false;
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if (addr >= g.beg + g.size_with_redzone) return false;
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Printf("%p is located ", (void*)addr);
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if (addr < g.beg) {
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Printf("%zd bytes to the left", g.beg - addr);
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} else if (addr >= g.beg + g.size) {
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Printf("%zd bytes to the right", addr - (g.beg + g.size));
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} else {
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Printf("%zd bytes inside", addr - g.beg); // Can it happen?
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}
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Printf(" of global variable '%s' (0x%zx) of size %zu\n",
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g.name, g.beg, g.size);
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PrintGlobalNameIfASCII(g);
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return true;
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}
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bool DescribeAddressIfShadow(uptr addr) {
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if (AddrIsInMem(addr))
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return false;
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static const char kAddrInShadowReport[] =
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"Address %p is located in the %s.\n";
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if (AddrIsInShadowGap(addr)) {
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Printf(kAddrInShadowReport, addr, "shadow gap area");
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return true;
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}
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if (AddrIsInHighShadow(addr)) {
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Printf(kAddrInShadowReport, addr, "high shadow area");
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return true;
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}
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if (AddrIsInLowShadow(addr)) {
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Printf(kAddrInShadowReport, addr, "low shadow area");
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return true;
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}
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CHECK(0 && "Address is not in memory and not in shadow?");
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return false;
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}
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bool DescribeAddressIfStack(uptr addr, uptr access_size) {
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AsanThread *t = asanThreadRegistry().FindThreadByStackAddress(addr);
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if (!t) return false;
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const sptr kBufSize = 4095;
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char buf[kBufSize];
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uptr offset = 0;
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const char *frame_descr = t->GetFrameNameByAddr(addr, &offset);
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// This string is created by the compiler and has the following form:
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// "FunctioName n alloc_1 alloc_2 ... alloc_n"
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// where alloc_i looks like "offset size len ObjectName ".
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CHECK(frame_descr);
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// Report the function name and the offset.
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const char *name_end = internal_strchr(frame_descr, ' ');
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CHECK(name_end);
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buf[0] = 0;
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internal_strncat(buf, frame_descr,
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Min(kBufSize,
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static_cast<sptr>(name_end - frame_descr)));
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Printf("Address %p is located at offset %zu "
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"in frame <%s> of T%d's stack:\n",
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(void*)addr, offset, buf, t->tid());
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// Report the number of stack objects.
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char *p;
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uptr n_objects = internal_simple_strtoll(name_end, &p, 10);
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CHECK(n_objects > 0);
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Printf(" This frame has %zu object(s):\n", n_objects);
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// Report all objects in this frame.
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for (uptr i = 0; i < n_objects; i++) {
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uptr beg, size;
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sptr len;
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beg = internal_simple_strtoll(p, &p, 10);
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size = internal_simple_strtoll(p, &p, 10);
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len = internal_simple_strtoll(p, &p, 10);
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if (beg <= 0 || size <= 0 || len < 0 || *p != ' ') {
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Printf("AddressSanitizer can't parse the stack frame "
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"descriptor: |%s|\n", frame_descr);
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break;
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}
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p++;
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buf[0] = 0;
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internal_strncat(buf, p, Min(kBufSize, len));
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p += len;
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Printf(" [%zu, %zu) '%s'\n", beg, beg + size, buf);
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}
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Printf("HINT: this may be a false positive if your program uses "
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"some custom stack unwind mechanism or swapcontext\n"
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" (longjmp and C++ exceptions *are* supported)\n");
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DescribeThread(t->summary());
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return true;
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}
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static void DescribeAccessToHeapChunk(AsanChunkView chunk, uptr addr,
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uptr access_size) {
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uptr offset;
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Printf("%p is located ", (void*)addr);
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if (chunk.AddrIsInside(addr, access_size, &offset)) {
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Printf("%zu bytes inside of", offset);
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} else if (chunk.AddrIsAtLeft(addr, access_size, &offset)) {
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Printf("%zu bytes to the left of", offset);
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} else if (chunk.AddrIsAtRight(addr, access_size, &offset)) {
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Printf("%zu bytes to the right of", offset);
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} else {
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Printf(" somewhere around (this is AddressSanitizer bug!)");
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}
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Printf(" %zu-byte region [%p,%p)\n", chunk.UsedSize(),
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(void*)(chunk.Beg()), (void*)(chunk.End()));
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}
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void DescribeHeapAddress(uptr addr, uptr access_size) {
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AsanChunkView chunk = FindHeapChunkByAddress(addr);
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if (!chunk.IsValid()) return;
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DescribeAccessToHeapChunk(chunk, addr, access_size);
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CHECK(chunk.AllocTid() != kInvalidTid);
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AsanThreadSummary *alloc_thread =
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asanThreadRegistry().FindByTid(chunk.AllocTid());
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StackTrace alloc_stack;
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chunk.GetAllocStack(&alloc_stack);
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AsanThread *t = asanThreadRegistry().GetCurrent();
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CHECK(t);
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if (chunk.FreeTid() != kInvalidTid) {
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AsanThreadSummary *free_thread =
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asanThreadRegistry().FindByTid(chunk.FreeTid());
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Printf("freed by thread T%d here:\n", free_thread->tid());
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StackTrace free_stack;
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chunk.GetFreeStack(&free_stack);
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PrintStack(&free_stack);
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Printf("previously allocated by thread T%d here:\n", alloc_thread->tid());
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PrintStack(&alloc_stack);
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DescribeThread(t->summary());
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DescribeThread(free_thread);
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DescribeThread(alloc_thread);
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} else {
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Printf("allocated by thread T%d here:\n", alloc_thread->tid());
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PrintStack(&alloc_stack);
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DescribeThread(t->summary());
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DescribeThread(alloc_thread);
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}
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}
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void DescribeAddress(uptr addr, uptr access_size) {
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// Check if this is shadow or shadow gap.
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if (DescribeAddressIfShadow(addr))
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return;
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CHECK(AddrIsInMem(addr));
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if (DescribeAddressIfGlobal(addr))
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return;
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if (DescribeAddressIfStack(addr, access_size))
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return;
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// Assume it is a heap address.
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DescribeHeapAddress(addr, access_size);
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}
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// ------------------- Thread description -------------------- {{{1
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void DescribeThread(AsanThreadSummary *summary) {
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CHECK(summary);
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// No need to announce the main thread.
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if (summary->tid() == 0 || summary->announced()) {
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return;
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}
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summary->set_announced(true);
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Printf("Thread T%d created by T%d here:\n",
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summary->tid(), summary->parent_tid());
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PrintStack(summary->stack());
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// Recursively described parent thread if needed.
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if (flags()->print_full_thread_history) {
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AsanThreadSummary *parent_summary =
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asanThreadRegistry().FindByTid(summary->parent_tid());
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DescribeThread(parent_summary);
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}
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}
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// -------------------- Different kinds of reports ----------------- {{{1
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// Use ScopedInErrorReport to run common actions just before and
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// immediately after printing error report.
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class ScopedInErrorReport {
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public:
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ScopedInErrorReport() {
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static atomic_uint32_t num_calls;
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static u32 reporting_thread_tid;
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if (atomic_fetch_add(&num_calls, 1, memory_order_relaxed) != 0) {
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// Do not print more than one report, otherwise they will mix up.
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// Error reporting functions shouldn't return at this situation, as
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// they are defined as no-return.
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Report("AddressSanitizer: while reporting a bug found another one."
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"Ignoring.\n");
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u32 current_tid = asanThreadRegistry().GetCurrentTidOrInvalid();
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if (current_tid != reporting_thread_tid) {
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// ASan found two bugs in different threads simultaneously. Sleep
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// long enough to make sure that the thread which started to print
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// an error report will finish doing it.
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SleepForSeconds(Max(100, flags()->sleep_before_dying + 1));
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}
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// If we're still not dead for some reason, use raw Exit() instead of
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// Die() to bypass any additional checks.
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Exit(flags()->exitcode);
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}
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__asan_on_error();
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reporting_thread_tid = asanThreadRegistry().GetCurrentTidOrInvalid();
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Printf("===================================================="
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"=============\n");
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if (reporting_thread_tid != kInvalidTid) {
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// We started reporting an error message. Stop using the fake stack
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// in case we call an instrumented function from a symbolizer.
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AsanThread *curr_thread = asanThreadRegistry().GetCurrent();
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CHECK(curr_thread);
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curr_thread->fake_stack().StopUsingFakeStack();
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}
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}
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// Destructor is NORETURN, as functions that report errors are.
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NORETURN ~ScopedInErrorReport() {
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// Make sure the current thread is announced.
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AsanThread *curr_thread = asanThreadRegistry().GetCurrent();
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if (curr_thread) {
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DescribeThread(curr_thread->summary());
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}
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// Print memory stats.
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__asan_print_accumulated_stats();
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if (error_report_callback) {
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error_report_callback(error_message_buffer);
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}
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Report("ABORTING\n");
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Die();
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}
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};
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void ReportSIGSEGV(uptr pc, uptr sp, uptr bp, uptr addr) {
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ScopedInErrorReport in_report;
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Report("ERROR: AddressSanitizer: SEGV on unknown address %p"
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" (pc %p sp %p bp %p T%d)\n",
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(void*)addr, (void*)pc, (void*)sp, (void*)bp,
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asanThreadRegistry().GetCurrentTidOrInvalid());
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Printf("AddressSanitizer can not provide additional info.\n");
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GET_STACK_TRACE_WITH_PC_AND_BP(kStackTraceMax, pc, bp);
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PrintStack(&stack);
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}
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void ReportDoubleFree(uptr addr, StackTrace *stack) {
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ScopedInErrorReport in_report;
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Report("ERROR: AddressSanitizer: attempting double-free on %p:\n", addr);
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PrintStack(stack);
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DescribeHeapAddress(addr, 1);
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}
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void ReportFreeNotMalloced(uptr addr, StackTrace *stack) {
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ScopedInErrorReport in_report;
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Report("ERROR: AddressSanitizer: attempting free on address "
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"which was not malloc()-ed: %p\n", addr);
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PrintStack(stack);
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DescribeHeapAddress(addr, 1);
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}
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void ReportMallocUsableSizeNotOwned(uptr addr, StackTrace *stack) {
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ScopedInErrorReport in_report;
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Report("ERROR: AddressSanitizer: attempting to call "
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"malloc_usable_size() for pointer which is "
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"not owned: %p\n", addr);
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PrintStack(stack);
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DescribeHeapAddress(addr, 1);
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}
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void ReportAsanGetAllocatedSizeNotOwned(uptr addr, StackTrace *stack) {
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ScopedInErrorReport in_report;
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Report("ERROR: AddressSanitizer: attempting to call "
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"__asan_get_allocated_size() for pointer which is "
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"not owned: %p\n", addr);
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PrintStack(stack);
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DescribeHeapAddress(addr, 1);
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}
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void ReportStringFunctionMemoryRangesOverlap(
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const char *function, const char *offset1, uptr length1,
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const char *offset2, uptr length2, StackTrace *stack) {
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ScopedInErrorReport in_report;
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Report("ERROR: AddressSanitizer: %s-param-overlap: "
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"memory ranges [%p,%p) and [%p, %p) overlap\n", \
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function, offset1, offset1 + length1, offset2, offset2 + length2);
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PrintStack(stack);
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DescribeAddress((uptr)offset1, length1);
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DescribeAddress((uptr)offset2, length2);
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}
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// ----------------------- Mac-specific reports ----------------- {{{1
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void WarnMacFreeUnallocated(
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uptr addr, uptr zone_ptr, const char *zone_name, StackTrace *stack) {
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// Just print a warning here.
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Printf("free_common(%p) -- attempting to free unallocated memory.\n"
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"AddressSanitizer is ignoring this error on Mac OS now.\n",
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addr);
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PrintZoneForPointer(addr, zone_ptr, zone_name);
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PrintStack(stack);
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DescribeHeapAddress(addr, 1);
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}
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void ReportMacMzReallocUnknown(
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uptr addr, uptr zone_ptr, const char *zone_name, StackTrace *stack) {
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ScopedInErrorReport in_report;
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Printf("mz_realloc(%p) -- attempting to realloc unallocated memory.\n"
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"This is an unrecoverable problem, exiting now.\n",
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addr);
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PrintZoneForPointer(addr, zone_ptr, zone_name);
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PrintStack(stack);
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DescribeHeapAddress(addr, 1);
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}
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void ReportMacCfReallocUnknown(
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uptr addr, uptr zone_ptr, const char *zone_name, StackTrace *stack) {
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ScopedInErrorReport in_report;
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Printf("cf_realloc(%p) -- attempting to realloc unallocated memory.\n"
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"This is an unrecoverable problem, exiting now.\n",
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addr);
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PrintZoneForPointer(addr, zone_ptr, zone_name);
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PrintStack(stack);
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DescribeHeapAddress(addr, 1);
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}
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} // namespace __asan
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// --------------------------- Interface --------------------- {{{1
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using namespace __asan; // NOLINT
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void __asan_report_error(uptr pc, uptr bp, uptr sp,
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uptr addr, bool is_write, uptr access_size) {
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ScopedInErrorReport in_report;
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// Determine the error type.
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const char *bug_descr = "unknown-crash";
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if (AddrIsInMem(addr)) {
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u8 *shadow_addr = (u8*)MemToShadow(addr);
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// If we are accessing 16 bytes, look at the second shadow byte.
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if (*shadow_addr == 0 && access_size > SHADOW_GRANULARITY)
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shadow_addr++;
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// If we are in the partial right redzone, look at the next shadow byte.
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if (*shadow_addr > 0 && *shadow_addr < 128)
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shadow_addr++;
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switch (*shadow_addr) {
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case kAsanHeapLeftRedzoneMagic:
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case kAsanHeapRightRedzoneMagic:
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bug_descr = "heap-buffer-overflow";
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break;
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case kAsanHeapFreeMagic:
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bug_descr = "heap-use-after-free";
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break;
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case kAsanStackLeftRedzoneMagic:
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bug_descr = "stack-buffer-underflow";
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break;
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case kAsanInitializationOrderMagic:
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bug_descr = "initialization-order-fiasco";
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break;
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case kAsanStackMidRedzoneMagic:
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case kAsanStackRightRedzoneMagic:
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case kAsanStackPartialRedzoneMagic:
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bug_descr = "stack-buffer-overflow";
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break;
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case kAsanStackAfterReturnMagic:
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bug_descr = "stack-use-after-return";
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break;
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case kAsanUserPoisonedMemoryMagic:
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bug_descr = "use-after-poison";
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break;
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case kAsanGlobalRedzoneMagic:
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bug_descr = "global-buffer-overflow";
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break;
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}
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}
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Report("ERROR: AddressSanitizer: %s on address "
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"%p at pc 0x%zx bp 0x%zx sp 0x%zx\n",
|
|
bug_descr, (void*)addr, pc, bp, sp);
|
|
|
|
u32 curr_tid = asanThreadRegistry().GetCurrentTidOrInvalid();
|
|
Printf("%s of size %zu at %p thread T%d\n",
|
|
access_size ? (is_write ? "WRITE" : "READ") : "ACCESS",
|
|
access_size, (void*)addr, curr_tid);
|
|
|
|
GET_STACK_TRACE_WITH_PC_AND_BP(kStackTraceMax, pc, bp);
|
|
PrintStack(&stack);
|
|
|
|
DescribeAddress(addr, access_size);
|
|
|
|
PrintShadowMemoryForAddress(addr);
|
|
}
|
|
|
|
void NOINLINE __asan_set_error_report_callback(void (*callback)(const char*)) {
|
|
error_report_callback = callback;
|
|
if (callback) {
|
|
error_message_buffer_size = 1 << 16;
|
|
error_message_buffer =
|
|
(char*)MmapOrDie(error_message_buffer_size, __FUNCTION__);
|
|
error_message_buffer_pos = 0;
|
|
}
|
|
}
|
|
|
|
// Provide default implementation of __asan_on_error that does nothing
|
|
// and may be overriden by user.
|
|
SANITIZER_WEAK_ATTRIBUTE SANITIZER_INTERFACE_ATTRIBUTE NOINLINE
|
|
void __asan_on_error() {}
|