mirror of
https://github.com/chromium/crashpad.git
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4b450c8137
gtest used to require (expected, actual) ordering for arguments to
EXPECT_EQ and ASSERT_EQ, and in failed test assertions would identify
each side as “expected” or “actual.” Tests in Crashpad adhered to this
traditional ordering. After a gtest change in February 2016, it is now
agnostic with respect to the order of these arguments.
This change mechanically updates all uses of these macros to (actual,
expected) by reversing them. This provides consistency with our use of
the logging CHECK_EQ and DCHECK_EQ macros, and makes for better
readability by ordinary native speakers. The rough (but working!)
conversion tool is
https://chromium-review.googlesource.com/c/466727/1/rewrite_expectassert_eq.py,
and “git cl format” cleaned up its output.
EXPECT_NE and ASSERT_NE never had a preferred ordering. gtest never made
a judgment that one side or the other needed to provide an “unexpected”
value. Consequently, some code used (unexpected, actual) while other
code used (actual, unexpected). For consistency with the new EXPECT_EQ
and ASSERT_EQ usage, as well as consistency with CHECK_NE and DCHECK_NE,
this change also updates these use sites to (actual, unexpected) where
one side can be called “unexpected” as, for example, std::string::npos
can be. Unfortunately, this portion was a manual conversion.
References:
https://github.com/google/googletest/blob/master/googletest/docs/Primer.md#binary-comparison
77d6b17338
https://github.com/google/googletest/pull/713
Change-Id: I978fef7c94183b8b1ef63f12f5ab4d6693626be3
Reviewed-on: https://chromium-review.googlesource.com/466727
Reviewed-by: Scott Graham <scottmg@chromium.org>
422 lines
14 KiB
C++
422 lines
14 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/mac/cpu_context_mac.h"
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#include <mach/mach.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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#if defined(ARCH_CPU_X86_FAMILY)
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TEST(CPUContextMac, InitializeContextX86) {
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x86_thread_state32_t x86_thread_state32 = {};
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x86_float_state32_t x86_float_state32 = {};
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x86_debug_state32_t x86_debug_state32 = {};
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x86_thread_state32.__eax = 1;
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x86_float_state32.__fpu_ftw = 2;
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x86_debug_state32.__dr0 = 3;
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// Test the simple case, where everything in the CPUContextX86 argument is set
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// directly from the supplied thread, float, and debug state parameters.
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{
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CPUContextX86 cpu_context_x86 = {};
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internal::InitializeCPUContextX86(&cpu_context_x86,
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THREAD_STATE_NONE,
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nullptr,
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0,
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&x86_thread_state32,
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&x86_float_state32,
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&x86_debug_state32);
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EXPECT_EQ(cpu_context_x86.eax, 1u);
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EXPECT_EQ(cpu_context_x86.fxsave.ftw, 2u);
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EXPECT_EQ(cpu_context_x86.dr0, 3u);
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}
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// Supply context in a CPU-specific “flavor” parameter expected to be used
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// instead of the supplied thread, float, or debug state parameters. Do this
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// once for each of the three valid flavors. This simulates how
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// InitializeCPUContextX86() might be used to initialize the context in an
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// exception handler, where the exception handler may have received the
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// “flavor” parameter and this context should be used to initialize the
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// CPUContextX86.
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{
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x86_thread_state32_t alt_x86_thread_state32 = {};
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alt_x86_thread_state32.__eax = 4;
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CPUContextX86 cpu_context_x86 = {};
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internal::InitializeCPUContextX86(
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&cpu_context_x86,
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x86_THREAD_STATE32,
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reinterpret_cast<natural_t*>(&alt_x86_thread_state32),
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x86_THREAD_STATE32_COUNT,
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&x86_thread_state32,
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&x86_float_state32,
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&x86_debug_state32);
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EXPECT_EQ(cpu_context_x86.eax, 4u);
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EXPECT_EQ(cpu_context_x86.fxsave.ftw, 2u);
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EXPECT_EQ(cpu_context_x86.dr0, 3u);
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}
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{
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x86_float_state32_t alt_x86_float_state32 = {};
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alt_x86_float_state32.__fpu_ftw = 5;
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CPUContextX86 cpu_context_x86 = {};
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internal::InitializeCPUContextX86(
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&cpu_context_x86,
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x86_FLOAT_STATE32,
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reinterpret_cast<natural_t*>(&alt_x86_float_state32),
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x86_FLOAT_STATE32_COUNT,
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&x86_thread_state32,
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&x86_float_state32,
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&x86_debug_state32);
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EXPECT_EQ(cpu_context_x86.eax, 1u);
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EXPECT_EQ(cpu_context_x86.fxsave.ftw, 5u);
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EXPECT_EQ(cpu_context_x86.dr0, 3u);
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}
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{
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x86_debug_state32_t alt_x86_debug_state32 = {};
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alt_x86_debug_state32.__dr0 = 6;
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CPUContextX86 cpu_context_x86 = {};
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internal::InitializeCPUContextX86(
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&cpu_context_x86,
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x86_DEBUG_STATE32,
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reinterpret_cast<natural_t*>(&alt_x86_debug_state32),
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x86_DEBUG_STATE32_COUNT,
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&x86_thread_state32,
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&x86_float_state32,
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&x86_debug_state32);
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EXPECT_EQ(cpu_context_x86.eax, 1u);
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EXPECT_EQ(cpu_context_x86.fxsave.ftw, 2u);
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EXPECT_EQ(cpu_context_x86.dr0, 6u);
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}
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// Supply context in a universal “flavor” parameter expected to be used
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// instead of the supplied thread, float, or debug state parameters. The
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// universal format allows an exception handler to be registered to receive
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// thread, float, or debug state without having to know in advance whether it
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// will be receiving the state from a 32-bit or 64-bit process. For
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// CPUContextX86, only the 32-bit form is supported.
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{
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x86_thread_state x86_thread_state_3264 = {};
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x86_thread_state_3264.tsh.flavor = x86_THREAD_STATE32;
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x86_thread_state_3264.tsh.count = x86_THREAD_STATE32_COUNT;
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x86_thread_state_3264.uts.ts32.__eax = 7;
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CPUContextX86 cpu_context_x86 = {};
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internal::InitializeCPUContextX86(
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&cpu_context_x86,
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x86_THREAD_STATE,
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reinterpret_cast<natural_t*>(&x86_thread_state_3264),
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x86_THREAD_STATE_COUNT,
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&x86_thread_state32,
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&x86_float_state32,
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&x86_debug_state32);
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EXPECT_EQ(cpu_context_x86.eax, 7u);
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EXPECT_EQ(cpu_context_x86.fxsave.ftw, 2u);
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EXPECT_EQ(cpu_context_x86.dr0, 3u);
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}
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{
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x86_float_state x86_float_state_3264 = {};
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x86_float_state_3264.fsh.flavor = x86_FLOAT_STATE32;
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x86_float_state_3264.fsh.count = x86_FLOAT_STATE32_COUNT;
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x86_float_state_3264.ufs.fs32.__fpu_ftw = 8;
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CPUContextX86 cpu_context_x86 = {};
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internal::InitializeCPUContextX86(
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&cpu_context_x86,
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x86_FLOAT_STATE,
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reinterpret_cast<natural_t*>(&x86_float_state_3264),
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x86_FLOAT_STATE_COUNT,
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&x86_thread_state32,
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&x86_float_state32,
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&x86_debug_state32);
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EXPECT_EQ(cpu_context_x86.eax, 1u);
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EXPECT_EQ(cpu_context_x86.fxsave.ftw, 8u);
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EXPECT_EQ(cpu_context_x86.dr0, 3u);
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}
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{
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x86_debug_state x86_debug_state_3264 = {};
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x86_debug_state_3264.dsh.flavor = x86_DEBUG_STATE32;
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x86_debug_state_3264.dsh.count = x86_DEBUG_STATE32_COUNT;
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x86_debug_state_3264.uds.ds32.__dr0 = 9;
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CPUContextX86 cpu_context_x86 = {};
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internal::InitializeCPUContextX86(
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&cpu_context_x86,
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x86_DEBUG_STATE,
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reinterpret_cast<natural_t*>(&x86_debug_state_3264),
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x86_DEBUG_STATE_COUNT,
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&x86_thread_state32,
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&x86_float_state32,
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&x86_debug_state32);
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EXPECT_EQ(cpu_context_x86.eax, 1u);
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EXPECT_EQ(cpu_context_x86.fxsave.ftw, 2u);
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EXPECT_EQ(cpu_context_x86.dr0, 9u);
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}
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// Supply inappropriate “flavor” contexts to test that
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// InitializeCPUContextX86() detects the problem and refuses to use the
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// supplied “flavor” context, falling back to the thread, float, and debug
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// states.
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{
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x86_thread_state64_t x86_thread_state64 = {};
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CPUContextX86 cpu_context_x86 = {};
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internal::InitializeCPUContextX86(
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&cpu_context_x86,
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x86_THREAD_STATE64,
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reinterpret_cast<natural_t*>(&x86_thread_state64),
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x86_THREAD_STATE64_COUNT,
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&x86_thread_state32,
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&x86_float_state32,
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&x86_debug_state32);
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EXPECT_EQ(cpu_context_x86.eax, 1u);
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EXPECT_EQ(cpu_context_x86.fxsave.ftw, 2u);
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EXPECT_EQ(cpu_context_x86.dr0, 3u);
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}
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{
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x86_thread_state x86_thread_state_3264 = {};
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x86_thread_state_3264.tsh.flavor = x86_THREAD_STATE64;
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x86_thread_state_3264.tsh.count = x86_THREAD_STATE64_COUNT;
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CPUContextX86 cpu_context_x86 = {};
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internal::InitializeCPUContextX86(
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&cpu_context_x86,
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x86_THREAD_STATE,
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reinterpret_cast<natural_t*>(&x86_thread_state_3264),
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x86_THREAD_STATE_COUNT,
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&x86_thread_state32,
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&x86_float_state32,
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&x86_debug_state32);
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EXPECT_EQ(cpu_context_x86.eax, 1u);
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EXPECT_EQ(cpu_context_x86.fxsave.ftw, 2u);
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EXPECT_EQ(cpu_context_x86.dr0, 3u);
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}
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}
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TEST(CPUContextMac, InitializeContextX86_64) {
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x86_thread_state64_t x86_thread_state64 = {};
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x86_float_state64_t x86_float_state64 = {};
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x86_debug_state64_t x86_debug_state64 = {};
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x86_thread_state64.__rax = 10;
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x86_float_state64.__fpu_ftw = 11;
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x86_debug_state64.__dr0 = 12;
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// Test the simple case, where everything in the CPUContextX86_64 argument is
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// set directly from the supplied thread, float, and debug state parameters.
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{
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CPUContextX86_64 cpu_context_x86_64 = {};
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internal::InitializeCPUContextX86_64(&cpu_context_x86_64,
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THREAD_STATE_NONE,
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nullptr,
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0,
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&x86_thread_state64,
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&x86_float_state64,
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&x86_debug_state64);
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EXPECT_EQ(cpu_context_x86_64.rax, 10u);
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EXPECT_EQ(cpu_context_x86_64.fxsave.ftw, 11u);
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EXPECT_EQ(cpu_context_x86_64.dr0, 12u);
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}
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// Supply context in a CPU-specific “flavor” parameter expected to be used
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// instead of the supplied thread, float, or debug state parameters. Do this
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// once for each of the three valid flavors. This simulates how
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// InitializeCPUContextX86_64() might be used to initialize the context in an
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// exception handler, where the exception handler may have received the
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// “flavor” parameter and this context should be used to initialize the
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// CPUContextX86_64.
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{
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x86_thread_state64_t alt_x86_thread_state64 = {};
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alt_x86_thread_state64.__rax = 13;
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CPUContextX86_64 cpu_context_x86_64 = {};
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internal::InitializeCPUContextX86_64(
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&cpu_context_x86_64,
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x86_THREAD_STATE64,
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reinterpret_cast<natural_t*>(&alt_x86_thread_state64),
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x86_THREAD_STATE64_COUNT,
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&x86_thread_state64,
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&x86_float_state64,
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&x86_debug_state64);
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EXPECT_EQ(cpu_context_x86_64.rax, 13u);
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EXPECT_EQ(cpu_context_x86_64.fxsave.ftw, 11u);
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EXPECT_EQ(cpu_context_x86_64.dr0, 12u);
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}
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{
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x86_float_state64_t alt_x86_float_state64 = {};
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alt_x86_float_state64.__fpu_ftw = 14;
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CPUContextX86_64 cpu_context_x86_64 = {};
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internal::InitializeCPUContextX86_64(
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&cpu_context_x86_64,
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x86_FLOAT_STATE64,
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reinterpret_cast<natural_t*>(&alt_x86_float_state64),
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x86_FLOAT_STATE64_COUNT,
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&x86_thread_state64,
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&x86_float_state64,
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&x86_debug_state64);
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EXPECT_EQ(cpu_context_x86_64.rax, 10u);
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EXPECT_EQ(cpu_context_x86_64.fxsave.ftw, 14u);
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EXPECT_EQ(cpu_context_x86_64.dr0, 12u);
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}
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{
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x86_debug_state64_t alt_x86_debug_state64 = {};
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alt_x86_debug_state64.__dr0 = 15;
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CPUContextX86_64 cpu_context_x86_64 = {};
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internal::InitializeCPUContextX86_64(
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&cpu_context_x86_64,
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x86_DEBUG_STATE64,
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reinterpret_cast<natural_t*>(&alt_x86_debug_state64),
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x86_DEBUG_STATE64_COUNT,
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&x86_thread_state64,
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&x86_float_state64,
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&x86_debug_state64);
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EXPECT_EQ(cpu_context_x86_64.rax, 10u);
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EXPECT_EQ(cpu_context_x86_64.fxsave.ftw, 11u);
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EXPECT_EQ(cpu_context_x86_64.dr0, 15u);
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}
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// Supply context in a universal “flavor” parameter expected to be used
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// instead of the supplied thread, float, or debug state parameters. The
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// universal format allows an exception handler to be registered to receive
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// thread, float, or debug state without having to know in advance whether it
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// will be receiving the state from a 32-bit or 64-bit process. For
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// CPUContextX86_64, only the 64-bit form is supported.
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{
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x86_thread_state x86_thread_state_3264 = {};
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x86_thread_state_3264.tsh.flavor = x86_THREAD_STATE64;
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x86_thread_state_3264.tsh.count = x86_THREAD_STATE64_COUNT;
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x86_thread_state_3264.uts.ts64.__rax = 16;
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CPUContextX86_64 cpu_context_x86_64 = {};
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internal::InitializeCPUContextX86_64(
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&cpu_context_x86_64,
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x86_THREAD_STATE,
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reinterpret_cast<natural_t*>(&x86_thread_state_3264),
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x86_THREAD_STATE_COUNT,
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&x86_thread_state64,
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&x86_float_state64,
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&x86_debug_state64);
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EXPECT_EQ(cpu_context_x86_64.rax, 16u);
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EXPECT_EQ(cpu_context_x86_64.fxsave.ftw, 11u);
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EXPECT_EQ(cpu_context_x86_64.dr0, 12u);
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}
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{
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x86_float_state x86_float_state_3264 = {};
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x86_float_state_3264.fsh.flavor = x86_FLOAT_STATE64;
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x86_float_state_3264.fsh.count = x86_FLOAT_STATE64_COUNT;
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x86_float_state_3264.ufs.fs64.__fpu_ftw = 17;
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CPUContextX86_64 cpu_context_x86_64 = {};
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internal::InitializeCPUContextX86_64(
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&cpu_context_x86_64,
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x86_FLOAT_STATE,
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reinterpret_cast<natural_t*>(&x86_float_state_3264),
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x86_FLOAT_STATE_COUNT,
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&x86_thread_state64,
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&x86_float_state64,
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&x86_debug_state64);
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EXPECT_EQ(cpu_context_x86_64.rax, 10u);
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EXPECT_EQ(cpu_context_x86_64.fxsave.ftw, 17u);
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EXPECT_EQ(cpu_context_x86_64.dr0, 12u);
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}
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{
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x86_debug_state x86_debug_state_3264 = {};
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x86_debug_state_3264.dsh.flavor = x86_DEBUG_STATE64;
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x86_debug_state_3264.dsh.count = x86_DEBUG_STATE64_COUNT;
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x86_debug_state_3264.uds.ds64.__dr0 = 18;
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CPUContextX86_64 cpu_context_x86_64 = {};
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internal::InitializeCPUContextX86_64(
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&cpu_context_x86_64,
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x86_DEBUG_STATE,
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reinterpret_cast<natural_t*>(&x86_debug_state_3264),
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x86_DEBUG_STATE_COUNT,
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&x86_thread_state64,
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&x86_float_state64,
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&x86_debug_state64);
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EXPECT_EQ(cpu_context_x86_64.rax, 10u);
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EXPECT_EQ(cpu_context_x86_64.fxsave.ftw, 11u);
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EXPECT_EQ(cpu_context_x86_64.dr0, 18u);
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}
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// Supply inappropriate “flavor” contexts to test that
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// InitializeCPUContextX86() detects the problem and refuses to use the
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// supplied “flavor” context, falling back to the thread, float, and debug
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// states.
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{
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x86_thread_state32_t x86_thread_state32 = {};
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CPUContextX86_64 cpu_context_x86_64 = {};
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internal::InitializeCPUContextX86_64(
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&cpu_context_x86_64,
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x86_THREAD_STATE32,
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reinterpret_cast<natural_t*>(&x86_thread_state32),
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x86_THREAD_STATE32_COUNT,
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&x86_thread_state64,
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&x86_float_state64,
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&x86_debug_state64);
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EXPECT_EQ(cpu_context_x86_64.rax, 10u);
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EXPECT_EQ(cpu_context_x86_64.fxsave.ftw, 11u);
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EXPECT_EQ(cpu_context_x86_64.dr0, 12u);
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}
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{
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x86_thread_state x86_thread_state_3264 = {};
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x86_thread_state_3264.tsh.flavor = x86_THREAD_STATE32;
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x86_thread_state_3264.tsh.count = x86_THREAD_STATE32_COUNT;
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CPUContextX86_64 cpu_context_x86_64 = {};
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internal::InitializeCPUContextX86_64(
|
|
&cpu_context_x86_64,
|
|
x86_THREAD_STATE,
|
|
reinterpret_cast<natural_t*>(&x86_thread_state_3264),
|
|
x86_THREAD_STATE_COUNT,
|
|
&x86_thread_state64,
|
|
&x86_float_state64,
|
|
&x86_debug_state64);
|
|
EXPECT_EQ(cpu_context_x86_64.rax, 10u);
|
|
EXPECT_EQ(cpu_context_x86_64.fxsave.ftw, 11u);
|
|
EXPECT_EQ(cpu_context_x86_64.dr0, 12u);
|
|
}
|
|
}
|
|
|
|
#endif
|
|
|
|
} // namespace
|
|
} // namespace test
|
|
} // namespace crashpad
|