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809ae4cc1d
Closes https://github.com/dart-lang/sdk/issues/51211 TEST=Fixes vm/cc/PCRelativeCallPatterns in ubsan Change-Id: I4c00e6ed2b73f63581a2df90a08cf70d1184898a Reviewed-on: https://dart-review.googlesource.com/c/sdk/+/280322 Reviewed-by: Daco Harkes <dacoharkes@google.com> Commit-Queue: Martin Kustermann <kustermann@google.com>
209 lines
6.6 KiB
C++
209 lines
6.6 KiB
C++
// Copyright (c) 2012, the Dart project authors. Please see the AUTHORS file
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// for details. All rights reserved. Use of this source code is governed by a
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// BSD-style license that can be found in the LICENSE file.
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// Classes that describe assembly patterns as used by inline caches.
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#ifndef RUNTIME_VM_INSTRUCTIONS_X64_H_
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#define RUNTIME_VM_INSTRUCTIONS_X64_H_
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#ifndef RUNTIME_VM_INSTRUCTIONS_H_
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#error "Do not include instructions_x64.h directly; use instructions.h instead."
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#endif
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#include <limits>
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#include "platform/unaligned.h"
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#include "vm/allocation.h"
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namespace dart {
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intptr_t IndexFromPPLoadDisp8(uword start);
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intptr_t IndexFromPPLoadDisp32(uword start);
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// Template class for all instruction pattern classes.
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// P has to specify a static pattern and a pattern length method.
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template <class P>
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class InstructionPattern : public ValueObject {
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public:
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explicit InstructionPattern(uword pc) : start_(pc) { ASSERT(pc != 0); }
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// Call to check if the instruction pattern at 'pc' match the instruction.
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// 'P::pattern()' returns the expected byte pattern in form of an integer
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// array with length of 'P::pattern_length_in_bytes()'. A '-1' element means
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// 'any byte'.
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bool IsValid() const {
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return TestBytesWith(P::pattern(), P::pattern_length_in_bytes());
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}
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protected:
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uword start() const { return start_; }
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private:
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// Returns true if the 'num_bytes' bytes at 'start_' correspond to
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// array of integers 'data'. 'data' elements are either a byte or -1, which
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// represents any byte.
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bool TestBytesWith(const int* data, int num_bytes) const {
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ASSERT(data != NULL);
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const uint8_t* byte_array = reinterpret_cast<const uint8_t*>(start_);
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for (int i = 0; i < num_bytes; i++) {
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// Skip comparison for data[i] < 0.
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if ((data[i] >= 0) && (byte_array[i] != (0xFF & data[i]))) {
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return false;
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}
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}
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return true;
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}
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const uword start_;
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DISALLOW_COPY_AND_ASSIGN(InstructionPattern);
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};
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class ReturnPattern : public InstructionPattern<ReturnPattern> {
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public:
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explicit ReturnPattern(uword pc) : InstructionPattern(pc) {}
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static const int* pattern() {
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static const int kReturnPattern[kLengthInBytes] = {0xC3};
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return kReturnPattern;
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}
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static int pattern_length_in_bytes() { return kLengthInBytes; }
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private:
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static const int kLengthInBytes = 1;
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};
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// push rbp
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// mov rbp, rsp
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class ProloguePattern : public InstructionPattern<ProloguePattern> {
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public:
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explicit ProloguePattern(uword pc) : InstructionPattern(pc) {}
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static const int* pattern() {
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static const int kProloguePattern[kLengthInBytes] = {0x55, 0x48, 0x89,
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0xe5};
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return kProloguePattern;
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}
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static int pattern_length_in_bytes() { return kLengthInBytes; }
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private:
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static const int kLengthInBytes = 4;
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};
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// mov rbp, rsp
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class SetFramePointerPattern
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: public InstructionPattern<SetFramePointerPattern> {
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public:
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explicit SetFramePointerPattern(uword pc) : InstructionPattern(pc) {}
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static const int* pattern() {
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static const int kFramePointerPattern[kLengthInBytes] = {0x48, 0x89, 0xe5};
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return kFramePointerPattern;
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}
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static int pattern_length_in_bytes() { return kLengthInBytes; }
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private:
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static const int kLengthInBytes = 3;
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};
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// callq *[rip+offset]
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class PcRelativeCallPattern : public InstructionPattern<PcRelativeCallPattern> {
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public:
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static const int kLengthInBytes = 5;
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// Theoretically we can encode offsets 5 bytes more than INT_MAX since the
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// instruction encoding uses the PC after current instruction.
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// Though in order to use int32_t as type on all architectures for distances,
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// we make the upper limit not have `+ kLengthInBytes`.
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static constexpr int32_t kLowerCallingRange =
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std::numeric_limits<int32_t>::min() + kLengthInBytes;
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static constexpr int32_t kUpperCallingRange =
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std::numeric_limits<int32_t>::max();
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explicit PcRelativeCallPattern(uword pc) : InstructionPattern(pc) {}
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int32_t distance() {
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return LoadUnaligned(reinterpret_cast<int32_t*>(start() + 1)) +
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kLengthInBytes;
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}
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void set_distance(int32_t distance) {
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// [distance] is relative to the start of the instruction, x64 considers the
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// offset relative to next PC.
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StoreUnaligned(reinterpret_cast<int32_t*>(start() + 1),
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distance - kLengthInBytes);
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}
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static const int* pattern() {
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static const int kPattern[kLengthInBytes] = {0xe8, -1, -1, -1, -1};
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return kPattern;
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}
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static int pattern_length_in_bytes() { return kLengthInBytes; }
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};
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// Instruction pattern for a tail call to a signed 32-bit PC-relative offset
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//
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// The AOT compiler can emit PC-relative calls. If the destination of such a
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// call is not in range for the "bl.<cond> <offset>" instruction, the AOT
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// compiler will emit a trampoline which is in range. That trampoline will
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// then tail-call to the final destination (also via PC-relative offset, but it
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// supports a full signed 32-bit offset).
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//
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// The pattern of the trampoline looks like:
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//
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// jmp $rip + <offset>
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//
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// (Strictly speaking the pc-relative call distance on X64 is big enough, but
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// for making AOT relocation code (i.e. relocation.cc) platform independent and
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// allow testing of trampolines on X64 we have it nonetheless)
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class PcRelativeTrampolineJumpPattern : public ValueObject {
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public:
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static const int kLengthInBytes = 5;
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explicit PcRelativeTrampolineJumpPattern(uword pattern_start)
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: pattern_start_(pattern_start) {}
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void Initialize() {
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uint8_t* pattern = reinterpret_cast<uint8_t*>(pattern_start_);
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pattern[0] = 0xe9;
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}
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int32_t distance() {
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return LoadUnaligned(reinterpret_cast<int32_t*>(pattern_start_ + 1)) +
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kLengthInBytes;
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}
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void set_distance(intptr_t distance) {
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// [distance] is relative to the start of the instruction, x64 considers the
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// offset relative to next PC.
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StoreUnaligned(reinterpret_cast<int32_t*>(pattern_start_ + 1),
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static_cast<int32_t>(distance - kLengthInBytes));
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}
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bool IsValid() const {
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uint8_t* pattern = reinterpret_cast<uint8_t*>(pattern_start_);
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return pattern[0] == 0xe9;
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}
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private:
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uword pattern_start_;
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};
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class PcRelativeTailCallPattern : public PcRelativeTrampolineJumpPattern {
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public:
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static constexpr int32_t kLowerCallingRange =
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PcRelativeCallPattern::kLowerCallingRange;
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static constexpr int32_t kUpperCallingRange =
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PcRelativeCallPattern::kUpperCallingRange;
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explicit PcRelativeTailCallPattern(uword pc)
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: PcRelativeTrampolineJumpPattern(pc) {}
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};
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} // namespace dart
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#endif // RUNTIME_VM_INSTRUCTIONS_X64_H_
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