1018981977
libsanitizer/ * All source files: Merge from upstream 285547. * configure.tgt (SANITIZER_COMMON_TARGET_DEPENDENT_OBJECTS): New variable. * configure.ac (SANITIZER_COMMON_TARGET_DEPENDENT_OBJECTS): Handle it. * asan/Makefile.am (asan_files): Add new files. * asan/Makefile.in: Regenerate. * ubsan/Makefile.in: Likewise. * lsan/Makefile.in: Likewise. * tsan/Makefile.am (tsan_files): Add new files. * tsan/Makefile.in: Regenerate. * sanitizer_common/Makefile.am (sanitizer_common_files): Add new files. (EXTRA_libsanitizer_common_la_SOURCES): Define. (libsanitizer_common_la_LIBADD): Likewise. (libsanitizer_common_la_DEPENDENCIES): Likewise. * sanitizer_common/Makefile.in: Regenerate. * interception/Makefile.in: Likewise. * libbacktace/Makefile.in: Likewise. * Makefile.in: Likewise. * configure: Likewise. * merge.sh: Handle builtins/assembly.h merging. * builtins/assembly.h: New file. * asan/libtool-version: Bump the libasan SONAME. From-SVN: r241977
362 lines
12 KiB
C++
362 lines
12 KiB
C++
//===-- sanitizer_posix.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 and implements POSIX-specific functions from
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// sanitizer_posix.h.
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//===----------------------------------------------------------------------===//
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#include "sanitizer_platform.h"
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#if SANITIZER_POSIX
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#include "sanitizer_common.h"
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#include "sanitizer_libc.h"
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#include "sanitizer_posix.h"
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#include "sanitizer_procmaps.h"
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#include "sanitizer_stacktrace.h"
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#include <fcntl.h>
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#include <signal.h>
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#include <sys/mman.h>
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#if SANITIZER_LINUX
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#include <sys/utsname.h>
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#endif
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#if SANITIZER_LINUX && !SANITIZER_ANDROID
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#include <sys/personality.h>
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#endif
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#if SANITIZER_FREEBSD
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// The MAP_NORESERVE define has been removed in FreeBSD 11.x, and even before
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// that, it was never implemented. So just define it to zero.
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#undef MAP_NORESERVE
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#define MAP_NORESERVE 0
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#endif
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namespace __sanitizer {
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// ------------- sanitizer_common.h
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uptr GetMmapGranularity() {
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return GetPageSize();
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}
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#if SANITIZER_WORDSIZE == 32
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// Take care of unusable kernel area in top gigabyte.
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static uptr GetKernelAreaSize() {
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#if SANITIZER_LINUX && !SANITIZER_X32
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const uptr gbyte = 1UL << 30;
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// Firstly check if there are writable segments
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// mapped to top gigabyte (e.g. stack).
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MemoryMappingLayout proc_maps(/*cache_enabled*/true);
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uptr end, prot;
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while (proc_maps.Next(/*start*/nullptr, &end,
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/*offset*/nullptr, /*filename*/nullptr,
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/*filename_size*/0, &prot)) {
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if ((end >= 3 * gbyte)
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&& (prot & MemoryMappingLayout::kProtectionWrite) != 0)
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return 0;
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}
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#if !SANITIZER_ANDROID
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// Even if nothing is mapped, top Gb may still be accessible
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// if we are running on 64-bit kernel.
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// Uname may report misleading results if personality type
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// is modified (e.g. under schroot) so check this as well.
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struct utsname uname_info;
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int pers = personality(0xffffffffUL);
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if (!(pers & PER_MASK)
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&& uname(&uname_info) == 0
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&& internal_strstr(uname_info.machine, "64"))
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return 0;
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#endif // SANITIZER_ANDROID
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// Top gigabyte is reserved for kernel.
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return gbyte;
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#else
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return 0;
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#endif // SANITIZER_LINUX && !SANITIZER_X32
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}
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#endif // SANITIZER_WORDSIZE == 32
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uptr GetMaxVirtualAddress() {
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#if SANITIZER_WORDSIZE == 64
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# if defined(__aarch64__) && SANITIZER_IOS && !SANITIZER_IOSSIM
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// Ideally, we would derive the upper bound from MACH_VM_MAX_ADDRESS. The
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// upper bound can change depending on the device.
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return 0x200000000 - 1;
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# elif defined(__powerpc64__) || defined(__aarch64__)
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// On PowerPC64 we have two different address space layouts: 44- and 46-bit.
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// We somehow need to figure out which one we are using now and choose
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// one of 0x00000fffffffffffUL and 0x00003fffffffffffUL.
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// Note that with 'ulimit -s unlimited' the stack is moved away from the top
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// of the address space, so simply checking the stack address is not enough.
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// This should (does) work for both PowerPC64 Endian modes.
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// Similarly, aarch64 has multiple address space layouts: 39, 42 and 47-bit.
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return (1ULL << (MostSignificantSetBitIndex(GET_CURRENT_FRAME()) + 1)) - 1;
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# elif defined(__mips64)
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return (1ULL << 40) - 1; // 0x000000ffffffffffUL;
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# elif defined(__s390x__)
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return (1ULL << 53) - 1; // 0x001fffffffffffffUL;
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# else
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return (1ULL << 47) - 1; // 0x00007fffffffffffUL;
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# endif
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#else // SANITIZER_WORDSIZE == 32
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# if defined(__s390__)
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return (1ULL << 31) - 1; // 0x7fffffff;
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# else
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uptr res = (1ULL << 32) - 1; // 0xffffffff;
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if (!common_flags()->full_address_space)
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res -= GetKernelAreaSize();
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CHECK_LT(reinterpret_cast<uptr>(&res), res);
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return res;
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# endif
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#endif // SANITIZER_WORDSIZE
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}
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void *MmapOrDie(uptr size, const char *mem_type, bool raw_report) {
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size = RoundUpTo(size, GetPageSizeCached());
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uptr res = internal_mmap(nullptr, size,
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PROT_READ | PROT_WRITE,
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MAP_PRIVATE | MAP_ANON, -1, 0);
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int reserrno;
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if (internal_iserror(res, &reserrno))
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ReportMmapFailureAndDie(size, mem_type, "allocate", reserrno, raw_report);
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IncreaseTotalMmap(size);
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return (void *)res;
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}
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void UnmapOrDie(void *addr, uptr size) {
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if (!addr || !size) return;
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uptr res = internal_munmap(addr, size);
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if (internal_iserror(res)) {
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Report("ERROR: %s failed to deallocate 0x%zx (%zd) bytes at address %p\n",
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SanitizerToolName, size, size, addr);
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CHECK("unable to unmap" && 0);
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}
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DecreaseTotalMmap(size);
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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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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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void *MmapNoReserveOrDie(uptr size, const char *mem_type) {
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uptr PageSize = GetPageSizeCached();
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uptr p = internal_mmap(nullptr,
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RoundUpTo(size, PageSize),
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PROT_READ | PROT_WRITE,
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MAP_PRIVATE | MAP_ANON | MAP_NORESERVE,
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-1, 0);
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int reserrno;
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if (internal_iserror(p, &reserrno))
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ReportMmapFailureAndDie(size, mem_type, "allocate noreserve", reserrno);
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IncreaseTotalMmap(size);
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return (void *)p;
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}
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void *MmapFixedOrDie(uptr fixed_addr, uptr size) {
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uptr PageSize = GetPageSizeCached();
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uptr p = internal_mmap((void*)(fixed_addr & ~(PageSize - 1)),
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RoundUpTo(size, PageSize),
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PROT_READ | PROT_WRITE,
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MAP_PRIVATE | MAP_ANON | MAP_FIXED,
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-1, 0);
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int reserrno;
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if (internal_iserror(p, &reserrno)) {
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char mem_type[30];
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internal_snprintf(mem_type, sizeof(mem_type), "memory at address 0x%zx",
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fixed_addr);
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ReportMmapFailureAndDie(size, mem_type, "allocate", reserrno);
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}
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IncreaseTotalMmap(size);
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return (void *)p;
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}
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bool MprotectNoAccess(uptr addr, uptr size) {
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return 0 == internal_mprotect((void*)addr, size, PROT_NONE);
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}
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bool MprotectReadOnly(uptr addr, uptr size) {
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return 0 == internal_mprotect((void *)addr, size, PROT_READ);
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}
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fd_t OpenFile(const char *filename, FileAccessMode mode, error_t *errno_p) {
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int flags;
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switch (mode) {
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case RdOnly: flags = O_RDONLY; break;
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case WrOnly: flags = O_WRONLY | O_CREAT; break;
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case RdWr: flags = O_RDWR | O_CREAT; break;
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}
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fd_t res = internal_open(filename, flags, 0660);
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if (internal_iserror(res, errno_p))
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return kInvalidFd;
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return res;
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}
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void CloseFile(fd_t fd) {
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internal_close(fd);
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}
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bool ReadFromFile(fd_t fd, void *buff, uptr buff_size, uptr *bytes_read,
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error_t *error_p) {
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uptr res = internal_read(fd, buff, buff_size);
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if (internal_iserror(res, error_p))
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return false;
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if (bytes_read)
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*bytes_read = res;
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return true;
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}
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bool WriteToFile(fd_t fd, const void *buff, uptr buff_size, uptr *bytes_written,
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error_t *error_p) {
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uptr res = internal_write(fd, buff, buff_size);
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if (internal_iserror(res, error_p))
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return false;
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if (bytes_written)
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*bytes_written = res;
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return true;
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}
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bool RenameFile(const char *oldpath, const char *newpath, error_t *error_p) {
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uptr res = internal_rename(oldpath, newpath);
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return !internal_iserror(res, error_p);
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}
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void *MapFileToMemory(const char *file_name, uptr *buff_size) {
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fd_t fd = OpenFile(file_name, RdOnly);
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CHECK(fd != kInvalidFd);
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uptr fsize = internal_filesize(fd);
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CHECK_NE(fsize, (uptr)-1);
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CHECK_GT(fsize, 0);
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*buff_size = RoundUpTo(fsize, GetPageSizeCached());
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uptr map = internal_mmap(nullptr, *buff_size, PROT_READ, MAP_PRIVATE, fd, 0);
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return internal_iserror(map) ? nullptr : (void *)map;
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}
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void *MapWritableFileToMemory(void *addr, uptr size, fd_t fd, OFF_T offset) {
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uptr flags = MAP_SHARED;
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if (addr) flags |= MAP_FIXED;
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uptr p = internal_mmap(addr, size, PROT_READ | PROT_WRITE, flags, fd, offset);
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int mmap_errno = 0;
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if (internal_iserror(p, &mmap_errno)) {
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Printf("could not map writable file (%d, %lld, %zu): %zd, errno: %d\n",
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fd, (long long)offset, size, p, mmap_errno);
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return nullptr;
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}
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return (void *)p;
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}
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static inline bool IntervalsAreSeparate(uptr start1, uptr end1,
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uptr start2, uptr end2) {
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CHECK(start1 <= end1);
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CHECK(start2 <= end2);
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return (end1 < start2) || (end2 < start1);
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}
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// FIXME: this is thread-unsafe, but should not cause problems most of the time.
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// When the shadow is mapped only a single thread usually exists (plus maybe
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// several worker threads on Mac, which aren't expected to map big chunks of
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// memory).
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bool MemoryRangeIsAvailable(uptr range_start, uptr range_end) {
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MemoryMappingLayout proc_maps(/*cache_enabled*/true);
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uptr start, end;
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while (proc_maps.Next(&start, &end,
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/*offset*/nullptr, /*filename*/nullptr,
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/*filename_size*/0, /*protection*/nullptr)) {
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if (start == end) continue; // Empty range.
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CHECK_NE(0, end);
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if (!IntervalsAreSeparate(start, end - 1, range_start, range_end))
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return false;
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}
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return true;
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}
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void DumpProcessMap() {
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MemoryMappingLayout proc_maps(/*cache_enabled*/true);
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uptr start, end;
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const sptr kBufSize = 4095;
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char *filename = (char*)MmapOrDie(kBufSize, __func__);
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Report("Process memory map follows:\n");
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while (proc_maps.Next(&start, &end, /* file_offset */nullptr,
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filename, kBufSize, /* protection */nullptr)) {
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Printf("\t%p-%p\t%s\n", (void*)start, (void*)end, filename);
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}
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Report("End of process memory map.\n");
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UnmapOrDie(filename, kBufSize);
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}
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const char *GetPwd() {
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return GetEnv("PWD");
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}
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bool IsPathSeparator(const char c) {
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return c == '/';
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}
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bool IsAbsolutePath(const char *path) {
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return path != nullptr && IsPathSeparator(path[0]);
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}
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void ReportFile::Write(const char *buffer, uptr length) {
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SpinMutexLock l(mu);
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static const char *kWriteError =
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"ReportFile::Write() can't output requested buffer!\n";
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ReopenIfNecessary();
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if (length != internal_write(fd, buffer, length)) {
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internal_write(fd, kWriteError, internal_strlen(kWriteError));
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Die();
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}
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}
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bool GetCodeRangeForFile(const char *module, uptr *start, uptr *end) {
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uptr s, e, off, prot;
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InternalScopedString buff(kMaxPathLength);
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MemoryMappingLayout proc_maps(/*cache_enabled*/false);
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while (proc_maps.Next(&s, &e, &off, buff.data(), buff.size(), &prot)) {
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if ((prot & MemoryMappingLayout::kProtectionExecute) != 0
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&& internal_strcmp(module, buff.data()) == 0) {
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*start = s;
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*end = e;
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return true;
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}
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}
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return false;
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}
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SignalContext SignalContext::Create(void *siginfo, void *context) {
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auto si = (siginfo_t *)siginfo;
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uptr addr = (uptr)si->si_addr;
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uptr pc, sp, bp;
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GetPcSpBp(context, &pc, &sp, &bp);
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WriteFlag write_flag = GetWriteFlag(context);
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bool is_memory_access = si->si_signo == SIGSEGV;
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return SignalContext(context, addr, pc, sp, bp, is_memory_access, write_flag);
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}
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} // namespace __sanitizer
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#endif // SANITIZER_POSIX
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