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8248c030e2
downstream, and tests. TEST=minidump_test R=rsesek@chromium.org Review URL: https://codereview.chromium.org/693933002
167 lines
7.4 KiB
C++
167 lines
7.4 KiB
C++
// Copyright 2014 The Crashpad Authors. All rights reserved.
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//
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// Licensed under the Apache License, Version 2.0 (the "License");
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// you may not use this file except in compliance with the License.
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// You may obtain a copy of the License at
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//
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// http://www.apache.org/licenses/LICENSE-2.0
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//
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// Unless required by applicable law or agreed to in writing, software
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// distributed under the License is distributed on an "AS IS" BASIS,
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// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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// See the License for the specific language governing permissions and
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// limitations under the License.
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#include "snapshot/cpu_context.h"
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#include <stdint.h>
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#include <string.h>
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#include "base/basictypes.h"
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#include "gtest/gtest.h"
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namespace crashpad {
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namespace test {
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namespace {
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enum ExponentValue {
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kExponentAllZero = 0,
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kExponentAllOne,
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kExponentNormal,
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};
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enum FractionValue {
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kFractionAllZero = 0,
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kFractionNormal,
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};
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//! \brief Initializes an x87 register to a known bit pattern.
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//!
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//! \param[out] st_mm The x87 register to initialize. The reserved portion of
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//! the register is always zeroed out.
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//! \param[in] exponent_value The bit pattern to use for the exponent. If this
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//! is kExponentAllZero, the sign bit will be set to `1`, and if this is
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//! kExponentAllOne, the sign bit will be set to `0`. This tests that the
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//! implementation doesn’t erroneously consider the sign bit to be part of
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//! the exponent. This may also be kExponentNormal, indicating that the
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//! exponent shall neither be all zeroes nor all ones.
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//! \param[in] j_bit The value to use for the “J bit” (“integer bit”).
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//! \param[in] fraction_value If kFractionAllZero, the fraction will be zeroed
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//! out. If kFractionNormal, the fraction will not be all zeroes.
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void SetX87Register(CPUContextX86::X87OrMMXRegister* st_mm,
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ExponentValue exponent_value,
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bool j_bit,
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FractionValue fraction_value) {
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switch (exponent_value) {
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case kExponentAllZero:
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st_mm->st[9] = 0x80;
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st_mm->st[8] = 0;
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break;
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case kExponentAllOne:
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st_mm->st[9] = 0x7f;
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st_mm->st[8] = 0xff;
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break;
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case kExponentNormal:
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st_mm->st[9] = 0x55;
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st_mm->st[8] = 0x55;
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break;
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}
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uint8_t fraction_pattern = fraction_value == kFractionAllZero ? 0 : 0x55;
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memset(&st_mm->st[0], fraction_pattern, 8);
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if (j_bit) {
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st_mm->st[7] |= 0x80;
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} else {
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st_mm->st[7] &= ~0x80;
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}
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memset(st_mm->st_reserved, 0, sizeof(st_mm->st_reserved));
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}
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TEST(CPUContextX86, FxsaveToFsaveTagWord) {
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// The fsave tag word uses bit pattern 00 for valid, 01 for zero, 10 for
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// “special”, and 11 for empty. Like the fxsave tag word, it is arranged by
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// physical register. The fxsave tag word determines whether a register is
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// empty, and analysis of the x87 register content distinguishes between
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// valid, zero, and special. In the initializations below, comments show
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// whether a register is expected to be considered valid, zero, or special,
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// except where the tag word is expected to indicate that it is empty. Each
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// combination appears twice: once where the fxsave tag word indicates a
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// nonempty register, and once again where it indicates an empty register.
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uint16_t fsw = 0 << 11; // top = 0: logical 0-7 maps to physical 0-7
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uint8_t fxsave_tag = 0x0f; // physical 4-7 (logical 4-7) empty
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CPUContextX86::X87OrMMXRegister st_mm[8];
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SetX87Register(&st_mm[0], kExponentNormal, false, kFractionNormal); // spec.
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SetX87Register(&st_mm[1], kExponentNormal, true, kFractionNormal); // valid
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SetX87Register(&st_mm[2], kExponentNormal, false, kFractionAllZero); // spec.
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SetX87Register(&st_mm[3], kExponentNormal, true, kFractionAllZero); // valid
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SetX87Register(&st_mm[4], kExponentNormal, false, kFractionNormal);
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SetX87Register(&st_mm[5], kExponentNormal, true, kFractionNormal);
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SetX87Register(&st_mm[6], kExponentNormal, false, kFractionAllZero);
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SetX87Register(&st_mm[7], kExponentNormal, true, kFractionAllZero);
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EXPECT_EQ(0xff22,
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CPUContextX86::FxsaveToFsaveTagWord(fsw, fxsave_tag, st_mm));
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fsw = 2 << 11; // top = 2: logical 0-7 maps to physical 2-7, 0-1
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fxsave_tag = 0xf0; // physical 0-3 (logical 6-7, 0-1) empty
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SetX87Register(&st_mm[0], kExponentAllZero, false, kFractionNormal);
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SetX87Register(&st_mm[1], kExponentAllZero, true, kFractionNormal);
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SetX87Register(&st_mm[2], kExponentAllZero, false, kFractionAllZero); // zero
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SetX87Register(&st_mm[3], kExponentAllZero, true, kFractionAllZero); // spec.
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SetX87Register(&st_mm[4], kExponentAllZero, false, kFractionNormal); // spec.
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SetX87Register(&st_mm[5], kExponentAllZero, true, kFractionNormal); // spec.
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SetX87Register(&st_mm[6], kExponentAllZero, false, kFractionAllZero);
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SetX87Register(&st_mm[7], kExponentAllZero, true, kFractionAllZero);
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EXPECT_EQ(0xa9ff,
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CPUContextX86::FxsaveToFsaveTagWord(fsw, fxsave_tag, st_mm));
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fsw = 5 << 11; // top = 5: logical 0-7 maps to physical 5-7, 0-4
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fxsave_tag = 0x5a; // physical 0, 2, 5, and 7 (logical 5, 0, 2, and 3) empty
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SetX87Register(&st_mm[0], kExponentAllOne, false, kFractionNormal);
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SetX87Register(&st_mm[1], kExponentAllOne, true, kFractionNormal); // spec.
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SetX87Register(&st_mm[2], kExponentAllOne, false, kFractionAllZero);
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SetX87Register(&st_mm[3], kExponentAllOne, true, kFractionAllZero);
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SetX87Register(&st_mm[4], kExponentAllOne, false, kFractionNormal); // spec.
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SetX87Register(&st_mm[5], kExponentAllOne, true, kFractionNormal);
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SetX87Register(&st_mm[6], kExponentAllOne, false, kFractionAllZero); // spec.
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SetX87Register(&st_mm[7], kExponentAllOne, true, kFractionAllZero); // spec.
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EXPECT_EQ(0xeebb,
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CPUContextX86::FxsaveToFsaveTagWord(fsw, fxsave_tag, st_mm));
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// This set set is just a mix of all of the possible tag types in a single
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// register file.
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fsw = 1 << 11; // top = 1: logical 0-7 maps to physical 1-7, 0
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fxsave_tag = 0x1f; // physical 5-7 (logical 4-6) empty
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SetX87Register(&st_mm[0], kExponentNormal, true, kFractionAllZero); // valid
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SetX87Register(&st_mm[1], kExponentAllZero, false, kFractionAllZero); // zero
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SetX87Register(&st_mm[2], kExponentAllOne, true, kFractionAllZero); // spec.
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SetX87Register(&st_mm[3], kExponentAllOne, true, kFractionNormal); // spec.
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SetX87Register(&st_mm[4], kExponentAllZero, false, kFractionAllZero);
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SetX87Register(&st_mm[5], kExponentAllZero, false, kFractionAllZero);
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SetX87Register(&st_mm[6], kExponentAllZero, false, kFractionAllZero);
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SetX87Register(&st_mm[7], kExponentNormal, true, kFractionNormal); // valid
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EXPECT_EQ(0xfe90,
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CPUContextX86::FxsaveToFsaveTagWord(fsw, fxsave_tag, st_mm));
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// In this set, everything is valid.
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fsw = 0 << 11; // top = 0: logical 0-7 maps to physical 0-7
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fxsave_tag = 0xff; // nothing empty
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for (size_t index = 0; index < arraysize(st_mm); ++index) {
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SetX87Register(&st_mm[index], kExponentNormal, true, kFractionAllZero);
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}
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EXPECT_EQ(0, CPUContextX86::FxsaveToFsaveTagWord(fsw, fxsave_tag, st_mm));
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// In this set, everything is empty. The registers shouldn’t be consulted at
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// all, so they’re left alone from the previous set.
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fsw = 0 << 11; // top = 0: logical 0-7 maps to physical 0-7
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fxsave_tag = 0; // everything empty
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EXPECT_EQ(0xffff,
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CPUContextX86::FxsaveToFsaveTagWord(fsw, fxsave_tag, st_mm));
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}
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} // namespace
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} // namespace test
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} // namespace crashpad
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