// Copyright 2014 The Chromium Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. #ifndef THIRD_PARTY_BASE_ALLOCATOR_PARTITION_ALLOCATOR_ADDRESS_SPACE_RANDOMIZATION_H_ #define THIRD_PARTY_BASE_ALLOCATOR_PARTITION_ALLOCATOR_ADDRESS_SPACE_RANDOMIZATION_H_ #include "build/build_config.h" #include "third_party/base/allocator/partition_allocator/page_allocator.h" #include "third_party/base/base_export.h" namespace pdfium { namespace base { // Sets the seed for the random number generator used by GetRandomPageBase in // order to generate a predictable sequence of addresses. May be called multiple // times. BASE_EXPORT void SetRandomPageBaseSeed(int64_t seed); // Calculates a random preferred mapping address. In calculating an address, we // balance good ASLR against not fragmenting the address space too badly. BASE_EXPORT void* GetRandomPageBase(); namespace internal { constexpr uintptr_t AslrAddress(uintptr_t mask) { return mask & kPageAllocationGranularityBaseMask; } constexpr uintptr_t AslrMask(uintptr_t bits) { return AslrAddress((1ULL << bits) - 1ULL); } // Turn off formatting, because the thicket of nested ifdefs below is // incomprehensible without indentation. It is also incomprehensible with // indentation, but the only other option is a combinatorial explosion of // *_{win,linux,mac,foo}_{32,64}.h files. // // clang-format off #if defined(ARCH_CPU_64_BITS) #if defined(MEMORY_TOOL_REPLACES_ALLOCATOR) // We shouldn't allocate system pages at all for sanitizer builds. However, // we do, and if random hint addresses interfere with address ranges // hard-coded in those tools, bad things happen. This address range is // copied from TSAN source but works with all tools. See // https://crbug.com/539863. constexpr uintptr_t kASLRMask = AslrAddress(0x007fffffffffULL); constexpr uintptr_t kASLROffset = AslrAddress(0x7e8000000000ULL); #elif defined(OS_WIN) // Windows 8.10 and newer support the full 48 bit address range. Older // versions of Windows only support 44 bits. Since kASLROffset is non-zero // and may cause a carry, use 47 and 43 bit masks. See // http://www.alex-ionescu.com/?p=246 constexpr uintptr_t kASLRMask = AslrMask(47); constexpr uintptr_t kASLRMaskBefore8_10 = AslrMask(43); // Try not to map pages into the range where Windows loads DLLs by default. constexpr uintptr_t kASLROffset = 0x80000000ULL; #elif defined(OS_MACOSX) // macOS as of 10.12.5 does not clean up entries in page map levels 3/4 // [PDP/PML4] created from mmap or mach_vm_allocate, even after the region // is destroyed. Using a virtual address space that is too large causes a // leak of about 1 wired [can never be paged out] page per call to mmap. The // page is only reclaimed when the process is killed. Confine the hint to a // 39-bit section of the virtual address space. // // This implementation adapted from // https://chromium-review.googlesource.com/c/v8/v8/+/557958. The difference // is that here we clamp to 39 bits, not 32. // // TODO(crbug.com/738925): Remove this limitation if/when the macOS behavior // changes. constexpr uintptr_t kASLRMask = AslrMask(38); constexpr uintptr_t kASLROffset = AslrAddress(0x1000000000ULL); #elif defined(OS_POSIX) || defined(OS_FUCHSIA) #if defined(ARCH_CPU_X86_64) // Linux (and macOS) support the full 47-bit user space of x64 processors. // Use only 46 to allow the kernel a chance to fulfill the request. constexpr uintptr_t kASLRMask = AslrMask(46); constexpr uintptr_t kASLROffset = AslrAddress(0); #elif defined(ARCH_CPU_ARM64) #if defined(OS_ANDROID) // Restrict the address range on Android to avoid a large performance // regression in single-process WebViews. See https://crbug.com/837640. constexpr uintptr_t kASLRMask = AslrMask(30); constexpr uintptr_t kASLROffset = AslrAddress(0x20000000ULL); #else // ARM64 on Linux has 39-bit user space. Use 38 bits since kASLROffset // could cause a carry. constexpr uintptr_t kASLRMask = AslrMask(38); constexpr uintptr_t kASLROffset = AslrAddress(0x1000000000ULL); #endif #elif defined(ARCH_CPU_PPC64) #if defined(OS_AIX) // AIX has 64 bits of virtual addressing, but we limit the address range // to (a) minimize segment lookaside buffer (SLB) misses; and (b) use // extra address space to isolate the mmap regions. constexpr uintptr_t kASLRMask = AslrMask(30); constexpr uintptr_t kASLROffset = AslrAddress(0x400000000000ULL); #elif defined(ARCH_CPU_BIG_ENDIAN) // Big-endian Linux PPC has 44 bits of virtual addressing. Use 42. constexpr uintptr_t kASLRMask = AslrMask(42); constexpr uintptr_t kASLROffset = AslrAddress(0); #else // !defined(OS_AIX) && !defined(ARCH_CPU_BIG_ENDIAN) // Little-endian Linux PPC has 48 bits of virtual addressing. Use 46. constexpr uintptr_t kASLRMask = AslrMask(46); constexpr uintptr_t kASLROffset = AslrAddress(0); #endif // !defined(OS_AIX) && !defined(ARCH_CPU_BIG_ENDIAN) #elif defined(ARCH_CPU_S390X) // Linux on Z uses bits 22 - 32 for Region Indexing, which translates to // 42 bits of virtual addressing. Truncate to 40 bits to allow kernel a // chance to fulfill the request. constexpr uintptr_t kASLRMask = AslrMask(40); constexpr uintptr_t kASLROffset = AslrAddress(0); #elif defined(ARCH_CPU_S390) // 31 bits of virtual addressing. Truncate to 29 bits to allow the kernel // a chance to fulfill the request. constexpr uintptr_t kASLRMask = AslrMask(29); constexpr uintptr_t kASLROffset = AslrAddress(0); #else // !defined(ARCH_CPU_X86_64) && !defined(ARCH_CPU_PPC64) && // !defined(ARCH_CPU_S390X) && !defined(ARCH_CPU_S390) // For all other POSIX variants, use 30 bits. constexpr uintptr_t kASLRMask = AslrMask(30); #if defined(OS_SOLARIS) // For our Solaris/illumos mmap hint, we pick a random address in the // bottom half of the top half of the address space (that is, the third // quarter). Because we do not MAP_FIXED, this will be treated only as a // hint -- the system will not fail to mmap because something else // happens to already be mapped at our random address. We deliberately // set the hint high enough to get well above the system's break (that // is, the heap); Solaris and illumos will try the hint and if that // fails allocate as if there were no hint at all. The high hint // prevents the break from getting hemmed in at low values, ceding half // of the address space to the system heap. constexpr uintptr_t kASLROffset = AslrAddress(0x80000000ULL); #elif defined(OS_AIX) // The range 0x30000000 - 0xD0000000 is available on AIX; choose the // upper range. constexpr uintptr_t kASLROffset = AslrAddress(0x90000000ULL); #else // !defined(OS_SOLARIS) && !defined(OS_AIX) // The range 0x20000000 - 0x60000000 is relatively unpopulated across a // variety of ASLR modes (PAE kernel, NX compat mode, etc) and on macOS // 10.6 and 10.7. constexpr uintptr_t kASLROffset = AslrAddress(0x20000000ULL); #endif // !defined(OS_SOLARIS) && !defined(OS_AIX) #endif // !defined(ARCH_CPU_X86_64) && !defined(ARCH_CPU_PPC64) && // !defined(ARCH_CPU_S390X) && !defined(ARCH_CPU_S390) #endif // defined(OS_POSIX) #elif defined(ARCH_CPU_32_BITS) // This is a good range on 32-bit Windows and Android (the only platforms on // which we support 32-bitness). Allocates in the 0.5 - 1.5 GiB region. There // is no issue with carries here. constexpr uintptr_t kASLRMask = AslrMask(30); constexpr uintptr_t kASLROffset = AslrAddress(0x20000000ULL); #else #error Please tell us about your exotic hardware! Sounds interesting. #endif // defined(ARCH_CPU_32_BITS) // clang-format on } // namespace internal } // namespace base } // namespace pdfium #endif // THIRD_PARTY_BASE_ALLOCATOR_PARTITION_ALLOCATOR_ADDRESS_SPACE_RANDOMIZATION_H_