forked from OSchip/llvm-project
293 lines
9.4 KiB
C++
293 lines
9.4 KiB
C++
//===-- esan_shadow.h -------------------------------------------*- C++ -*-===//
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//
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// The LLVM Compiler Infrastructure
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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 EfficiencySanitizer, a family of performance tuners.
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//
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// Shadow memory mappings for the esan run-time.
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//===----------------------------------------------------------------------===//
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#ifndef ESAN_SHADOW_H
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#define ESAN_SHADOW_H
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#include "esan.h"
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#include <sanitizer_common/sanitizer_platform.h>
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#if SANITIZER_WORDSIZE != 64
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#error Only 64-bit is supported
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#endif
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namespace __esan {
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struct ApplicationRegion {
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uptr Start;
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uptr End;
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bool ShadowMergedWithPrev;
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};
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#if SANITIZER_LINUX && defined(__x86_64__)
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// Linux x86_64
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//
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// Application memory falls into these 5 regions (ignoring the corner case
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// of PIE with a non-zero PT_LOAD base):
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//
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// [0x00000000'00000000, 0x00000100'00000000) non-PIE + heap
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// [0x00005500'00000000, 0x00005700'00000000) PIE
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// [0x00007e00'00000000, 0x00007fff'ff600000) libraries + stack, part 1
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// [0x00007fff'ff601000, 0x00008000'00000000) libraries + stack, part 2
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// [0xffffffff'ff600000, 0xffffffff'ff601000) vsyscall
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//
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// Although we can ignore the vsyscall for the most part as there are few data
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// references there (other sanitizers ignore it), we enforce a gap inside the
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// library region to distinguish the vsyscall's shadow, considering this gap to
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// be an invalid app region.
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// We disallow application memory outside of those 5 regions.
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// Our regions assume that the stack rlimit is less than a terabyte (otherwise
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// the Linux kernel's default mmap region drops below 0x7e00'), which we enforce
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// at init time (we can support larger and unlimited sizes for shadow
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// scaledowns, but it is difficult for 1:1 mappings).
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//
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// Our shadow memory is scaled from a 1:1 mapping and supports a scale
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// specified at library initialization time that can be any power-of-2
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// scaledown (1x, 2x, 4x, 8x, 16x, etc.).
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//
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// We model our shadow memory after Umbra, a library used by the Dr. Memory
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// tool: https://github.com/DynamoRIO/drmemory/blob/master/umbra/umbra_x64.c.
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// We use Umbra's scheme as it was designed to support different
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// offsets, it supports two different shadow mappings (which we may want to
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// use for future tools), and it ensures that the shadow of a shadow will
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// not overlap either shadow memory or application memory.
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//
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// This formula translates from application memory to shadow memory:
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//
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// shadow(app) = ((app & 0x00000fff'ffffffff) + offset) >> scale
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//
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// Where the offset for 1:1 is 0x00001300'00000000. For other scales, the
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// offset is shifted left by the scale, except for scales of 1 and 2 where
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// it must be tweaked in order to pass the double-shadow test
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// (see the "shadow(shadow)" comments below):
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// scale == 0: 0x00001300'000000000
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// scale == 1: 0x00002200'000000000
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// scale == 2: 0x00004400'000000000
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// scale >= 3: (0x00001300'000000000 << scale)
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//
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// Do not pass in the open-ended end value to the formula as it will fail.
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//
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// The resulting shadow memory regions for a 0 scaling are:
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//
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// [0x00001300'00000000, 0x00001400'00000000)
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// [0x00001800'00000000, 0x00001a00'00000000)
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// [0x00002100'00000000, 0x000022ff'ff600000)
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// [0x000022ff'ff601000, 0x00002300'00000000)
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// [0x000022ff'ff600000, 0x000022ff'ff601000]
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//
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// We also want to ensure that a wild access by the application into the shadow
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// regions will not corrupt our own shadow memory. shadow(shadow) ends up
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// disjoint from shadow(app):
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//
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// [0x00001600'00000000, 0x00001700'00000000)
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// [0x00001b00'00000000, 0x00001d00'00000000)
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// [0x00001400'00000000, 0x000015ff'ff600000]
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// [0x000015ff'ff601000, 0x00001600'00000000]
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// [0x000015ff'ff600000, 0x000015ff'ff601000]
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static const struct ApplicationRegion AppRegions[] = {
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{0x0000000000000000ull, 0x0000010000000000u, false},
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{0x0000550000000000u, 0x0000570000000000u, false},
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// We make one shadow mapping to hold the shadow regions for all 3 of these
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// app regions, as the mappings interleave, and the gap between the 3rd and
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// 4th scales down below a page.
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{0x00007e0000000000u, 0x00007fffff600000u, false},
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{0x00007fffff601000u, 0x0000800000000000u, true},
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{0xffffffffff600000u, 0xffffffffff601000u, true},
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};
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#elif SANITIZER_LINUX && SANITIZER_MIPS64
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// Application memory falls into these 3 regions
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//
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// [0x00000001'00000000, 0x00000002'00000000) non-PIE + heap
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// [0x000000aa'00000000, 0x000000ab'00000000) PIE
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// [0x000000ff'00000000, 0x000000ff'ffffffff) libraries + stack
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//
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// This formula translates from application memory to shadow memory:
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//
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// shadow(app) = ((app & 0x00000f'ffffffff) + offset) >> scale
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//
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// Where the offset for 1:1 is 0x000013'00000000. For other scales, the
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// offset is shifted left by the scale, except for scales of 1 and 2 where
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// it must be tweaked in order to pass the double-shadow test
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// (see the "shadow(shadow)" comments below):
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// scale == 0: 0x000013'00000000
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// scale == 1: 0x000022'00000000
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// scale == 2: 0x000044'00000000
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// scale >= 3: (0x000013'00000000 << scale)
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//
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// The resulting shadow memory regions for a 0 scaling are:
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//
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// [0x00000014'00000000, 0x00000015'00000000)
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// [0x0000001d'00000000, 0x0000001e'00000000)
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// [0x00000022'00000000, 0x00000022'ffffffff)
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//
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// We also want to ensure that a wild access by the application into the shadow
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// regions will not corrupt our own shadow memory. shadow(shadow) ends up
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// disjoint from shadow(app):
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//
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// [0x00000017'00000000, 0x00000018'00000000)
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// [0x00000020'00000000, 0x00000021'00000000)
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// [0x00000015'00000000, 0x00000015'ffffffff]
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static const struct ApplicationRegion AppRegions[] = {
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{0x0100000000u, 0x0200000000u, false},
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{0xaa00000000u, 0xab00000000u, false},
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{0xff00000000u, 0xffffffffffu, false},
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};
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#else
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#error Platform not supported
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#endif
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static const u32 NumAppRegions = sizeof(AppRegions)/sizeof(AppRegions[0]);
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// See the comment above: we do not currently support a stack size rlimit
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// equal to or larger than 1TB.
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static const uptr MaxStackSize = (1ULL << 40) - 4096;
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class ShadowMapping {
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public:
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// The scale and offset vary by tool.
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uptr Scale;
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uptr Offset;
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// TODO(sagar.thakur): Try to hardcode the mask as done in the compiler
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// instrumentation to reduce the runtime cost of appToShadow.
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struct ShadowMemoryMask40 {
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static const uptr Mask = 0x0000000fffffffffu;
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};
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struct ShadowMemoryMask47 {
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static const uptr Mask = 0x00000fffffffffffu;
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};
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void initialize(uptr ShadowScale) {
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const uptr OffsetArray40[3] = {
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0x0000001300000000u,
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0x0000002200000000u,
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0x0000004400000000u,
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};
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const uptr OffsetArray47[3] = {
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0x0000130000000000u,
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0x0000220000000000u,
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0x0000440000000000u,
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};
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Scale = ShadowScale;
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switch (VmaSize) {
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case 40: {
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if (Scale <= 2)
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Offset = OffsetArray40[Scale];
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else
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Offset = OffsetArray40[0] << Scale;
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}
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break;
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case 47: {
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if (Scale <= 2)
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Offset = OffsetArray47[Scale];
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else
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Offset = OffsetArray47[0] << Scale;
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}
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break;
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default: {
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Printf("ERROR: %d-bit virtual memory address size not supported\n", VmaSize);
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Die();
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}
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}
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}
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};
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extern ShadowMapping Mapping;
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static inline bool getAppRegion(u32 i, uptr *Start, uptr *End) {
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if (i >= NumAppRegions)
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return false;
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*Start = AppRegions[i].Start;
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*End = AppRegions[i].End;
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return true;
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}
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ALWAYS_INLINE
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bool isAppMem(uptr Mem) {
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for (u32 i = 0; i < NumAppRegions; ++i) {
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if (Mem >= AppRegions[i].Start && Mem < AppRegions[i].End)
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return true;
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}
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return false;
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}
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template<typename Params>
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uptr appToShadowImpl(uptr App) {
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return (((App & Params::Mask) + Mapping.Offset) >> Mapping.Scale);
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}
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ALWAYS_INLINE
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uptr appToShadow(uptr App) {
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switch (VmaSize) {
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case 40: return appToShadowImpl<ShadowMapping::ShadowMemoryMask40>(App);
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case 47: return appToShadowImpl<ShadowMapping::ShadowMemoryMask47>(App);
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default: {
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Printf("ERROR: %d-bit virtual memory address size not supported\n", VmaSize);
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Die();
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}
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}
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}
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static inline bool getShadowRegion(u32 i, uptr *Start, uptr *End) {
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if (i >= NumAppRegions)
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return false;
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u32 UnmergedShadowCount = 0;
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u32 AppIdx;
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for (AppIdx = 0; AppIdx < NumAppRegions; ++AppIdx) {
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if (!AppRegions[AppIdx].ShadowMergedWithPrev) {
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if (UnmergedShadowCount == i)
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break;
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UnmergedShadowCount++;
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}
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}
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if (AppIdx >= NumAppRegions || UnmergedShadowCount != i)
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return false;
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*Start = appToShadow(AppRegions[AppIdx].Start);
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// The formula fails for the end itself.
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*End = appToShadow(AppRegions[AppIdx].End - 1) + 1;
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// Merge with adjacent shadow regions:
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for (++AppIdx; AppIdx < NumAppRegions; ++AppIdx) {
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if (!AppRegions[AppIdx].ShadowMergedWithPrev)
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break;
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*Start = Min(*Start, appToShadow(AppRegions[AppIdx].Start));
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*End = Max(*End, appToShadow(AppRegions[AppIdx].End - 1) + 1);
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}
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return true;
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}
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ALWAYS_INLINE
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bool isShadowMem(uptr Mem) {
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// We assume this is not used on any critical performance path and so there's
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// no need to hardcode the mapping results.
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for (uptr i = 0; i < NumAppRegions; ++i) {
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if (Mem >= appToShadow(AppRegions[i].Start) &&
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Mem < appToShadow(AppRegions[i].End - 1) + 1)
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return true;
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}
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return false;
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}
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} // namespace __esan
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#endif /* ESAN_SHADOW_H */
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