e9772e16b3
From-SVN: r195083
208 lines
6.0 KiB
C++
208 lines
6.0 KiB
C++
//===-- sanitizer_common.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 shared between AddressSanitizer and ThreadSanitizer
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// run-time libraries.
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//===----------------------------------------------------------------------===//
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#include "sanitizer_common.h"
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#include "sanitizer_libc.h"
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namespace __sanitizer {
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uptr GetPageSizeCached() {
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static uptr PageSize;
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if (!PageSize)
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PageSize = GetPageSize();
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return PageSize;
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}
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// By default, dump to stderr. If report_fd is kInvalidFd, try to obtain file
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// descriptor by opening file in report_path.
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static fd_t report_fd = kStderrFd;
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static char report_path[4096]; // Set via __sanitizer_set_report_path.
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static void (*DieCallback)(void);
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void SetDieCallback(void (*callback)(void)) {
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DieCallback = callback;
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}
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void NORETURN Die() {
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if (DieCallback) {
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DieCallback();
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}
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Exit(1);
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}
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static CheckFailedCallbackType CheckFailedCallback;
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void SetCheckFailedCallback(CheckFailedCallbackType callback) {
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CheckFailedCallback = callback;
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}
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void NORETURN CheckFailed(const char *file, int line, const char *cond,
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u64 v1, u64 v2) {
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if (CheckFailedCallback) {
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CheckFailedCallback(file, line, cond, v1, v2);
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}
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Report("Sanitizer CHECK failed: %s:%d %s (%zd, %zd)\n", file, line, cond,
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v1, v2);
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Die();
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}
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static void MaybeOpenReportFile() {
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if (report_fd != kInvalidFd)
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return;
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fd_t fd = internal_open(report_path, true);
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if (fd == kInvalidFd) {
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report_fd = kStderrFd;
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Report("ERROR: Can't open file: %s\n", report_path);
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Die();
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}
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report_fd = fd;
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}
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bool PrintsToTty() {
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MaybeOpenReportFile();
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return internal_isatty(report_fd);
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}
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void RawWrite(const char *buffer) {
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static const char *kRawWriteError = "RawWrite can't output requested buffer!";
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uptr length = (uptr)internal_strlen(buffer);
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MaybeOpenReportFile();
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if (length != internal_write(report_fd, buffer, length)) {
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internal_write(report_fd, kRawWriteError, internal_strlen(kRawWriteError));
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Die();
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}
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}
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uptr ReadFileToBuffer(const char *file_name, char **buff,
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uptr *buff_size, uptr max_len) {
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uptr PageSize = GetPageSizeCached();
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uptr kMinFileLen = PageSize;
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uptr read_len = 0;
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*buff = 0;
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*buff_size = 0;
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// The files we usually open are not seekable, so try different buffer sizes.
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for (uptr size = kMinFileLen; size <= max_len; size *= 2) {
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fd_t fd = internal_open(file_name, /*write*/ false);
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if (fd == kInvalidFd) return 0;
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UnmapOrDie(*buff, *buff_size);
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*buff = (char*)MmapOrDie(size, __FUNCTION__);
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*buff_size = size;
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// Read up to one page at a time.
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read_len = 0;
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bool reached_eof = false;
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while (read_len + PageSize <= size) {
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uptr just_read = internal_read(fd, *buff + read_len, PageSize);
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if (just_read == 0) {
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reached_eof = true;
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break;
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}
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read_len += just_read;
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}
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internal_close(fd);
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if (reached_eof) // We've read the whole file.
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break;
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}
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return read_len;
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}
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// We don't want to use std::sort to avoid including <algorithm>, as
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// we may end up with two implementation of std::sort - one in instrumented
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// code, and the other in runtime.
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// qsort() from stdlib won't work as it calls malloc(), which results
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// in deadlock in ASan allocator.
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// We re-implement in-place sorting w/o recursion as straightforward heapsort.
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void SortArray(uptr *array, uptr size) {
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if (size < 2)
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return;
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// Stage 1: insert elements to the heap.
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for (uptr i = 1; i < size; i++) {
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uptr j, p;
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for (j = i; j > 0; j = p) {
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p = (j - 1) / 2;
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if (array[j] > array[p])
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Swap(array[j], array[p]);
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else
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break;
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}
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}
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// Stage 2: swap largest element with the last one,
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// and sink the new top.
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for (uptr i = size - 1; i > 0; i--) {
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Swap(array[0], array[i]);
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uptr j, max_ind;
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for (j = 0; j < i; j = max_ind) {
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uptr left = 2 * j + 1;
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uptr right = 2 * j + 2;
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max_ind = j;
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if (left < i && array[left] > array[max_ind])
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max_ind = left;
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if (right < i && array[right] > array[max_ind])
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max_ind = right;
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if (max_ind != j)
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Swap(array[j], array[max_ind]);
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else
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break;
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}
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}
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}
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// We want to map a chunk of address space aligned to 'alignment'.
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// We do it by maping a bit more and then unmaping redundant pieces.
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// We probably can do it with fewer syscalls in some OS-dependent way.
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void *MmapAlignedOrDie(uptr size, uptr alignment, const char *mem_type) {
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// uptr PageSize = GetPageSizeCached();
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CHECK(IsPowerOfTwo(size));
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CHECK(IsPowerOfTwo(alignment));
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uptr map_size = size + alignment;
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uptr map_res = (uptr)MmapOrDie(map_size, mem_type);
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uptr map_end = map_res + map_size;
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uptr res = map_res;
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if (res & (alignment - 1)) // Not aligned.
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res = (map_res + alignment) & ~(alignment - 1);
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uptr end = res + size;
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if (res != map_res)
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UnmapOrDie((void*)map_res, res - map_res);
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if (end != map_end)
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UnmapOrDie((void*)end, map_end - end);
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return (void*)res;
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}
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} // namespace __sanitizer
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using namespace __sanitizer; // NOLINT
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extern "C" {
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void __sanitizer_set_report_path(const char *path) {
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if (!path) return;
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uptr len = internal_strlen(path);
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if (len > sizeof(report_path) - 100) {
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Report("ERROR: Path is too long: %c%c%c%c%c%c%c%c...\n",
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path[0], path[1], path[2], path[3],
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path[4], path[5], path[6], path[7]);
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Die();
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}
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internal_snprintf(report_path, sizeof(report_path), "%s.%d", path, GetPid());
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report_fd = kInvalidFd;
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}
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void __sanitizer_set_report_fd(int fd) {
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if (report_fd != kStdoutFd &&
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report_fd != kStderrFd &&
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report_fd != kInvalidFd)
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internal_close(report_fd);
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report_fd = fd;
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}
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void NOINLINE __sanitizer_sandbox_on_notify(void *reserved) {
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(void)reserved;
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PrepareForSandboxing();
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}
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} // extern "C"
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