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dc489055ed
This DCHECK() was not correct. When dumping a process with CET enabled the cetumsr and cetussp registers are not available in the context obtained for the exception record. All contexts to be written to a minidump must have the same context format so those registers will be present for captured threads. It is therefore ok for the context to expect extended xsave registers but for them to be zero in some cases. Bug: 337665168 Change-Id: If7e5f40fe8eda6799b034991cb87e89437cb4821 Reviewed-on: https://chromium-review.googlesource.com/c/crashpad/crashpad/+/5507588 Reviewed-by: Mark Mentovai <mark@chromium.org> Commit-Queue: Alex Gough <ajgo@chromium.org>
610 lines
21 KiB
C++
610 lines
21 KiB
C++
// Copyright 2014 The Crashpad Authors
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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 "minidump/minidump_context_writer.h"
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#include <windows.h>
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#include <dbghelp.h>
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#include <stdint.h>
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#include <string.h>
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#include "base/check_op.h"
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#include "base/compiler_specific.h"
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#include "base/logging.h"
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#include "build/build_config.h"
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#include "snapshot/cpu_context.h"
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#include "util/file/file_writer.h"
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#include "util/stdlib/aligned_allocator.h"
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namespace crashpad {
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namespace {
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// Sanity-check complex structures to ensure interoperability.
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static_assert(sizeof(MinidumpContextX86) == 716, "MinidumpContextX86 size");
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static_assert(sizeof(MinidumpContextAMD64) == 1232,
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"MinidumpContextAMD64 size");
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// These structures can also be checked against definitions in the Windows SDK.
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#if BUILDFLAG(IS_WIN)
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#if defined(ARCH_CPU_X86_FAMILY)
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static_assert(sizeof(MinidumpContextX86) == sizeof(WOW64_CONTEXT),
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"WOW64_CONTEXT size");
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#if defined(ARCH_CPU_X86)
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static_assert(sizeof(MinidumpContextX86) == sizeof(CONTEXT), "CONTEXT size");
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#elif defined(ARCH_CPU_X86_64)
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static_assert(sizeof(MinidumpContextAMD64) == sizeof(CONTEXT), "CONTEXT size");
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#endif
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#endif // ARCH_CPU_X86_FAMILY
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#endif // BUILDFLAG(IS_WIN)
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} // namespace
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MinidumpContextWriter::~MinidumpContextWriter() {
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}
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// static
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std::unique_ptr<MinidumpContextWriter>
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MinidumpContextWriter::CreateFromSnapshot(const CPUContext* context_snapshot) {
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std::unique_ptr<MinidumpContextWriter> context;
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switch (context_snapshot->architecture) {
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case kCPUArchitectureX86: {
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MinidumpContextX86Writer* context_x86 = new MinidumpContextX86Writer();
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context.reset(context_x86);
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context_x86->InitializeFromSnapshot(context_snapshot->x86);
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break;
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}
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case kCPUArchitectureX86_64: {
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MinidumpContextAMD64Writer* context_amd64 =
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new MinidumpContextAMD64Writer();
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context.reset(context_amd64);
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context_amd64->InitializeFromSnapshot(context_snapshot->x86_64);
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break;
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}
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case kCPUArchitectureARM: {
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context = std::make_unique<MinidumpContextARMWriter>();
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reinterpret_cast<MinidumpContextARMWriter*>(context.get())
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->InitializeFromSnapshot(context_snapshot->arm);
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break;
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}
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case kCPUArchitectureARM64: {
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context = std::make_unique<MinidumpContextARM64Writer>();
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reinterpret_cast<MinidumpContextARM64Writer*>(context.get())
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->InitializeFromSnapshot(context_snapshot->arm64);
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break;
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}
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case kCPUArchitectureMIPSEL: {
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context = std::make_unique<MinidumpContextMIPSWriter>();
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reinterpret_cast<MinidumpContextMIPSWriter*>(context.get())
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->InitializeFromSnapshot(context_snapshot->mipsel);
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break;
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}
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case kCPUArchitectureMIPS64EL: {
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context = std::make_unique<MinidumpContextMIPS64Writer>();
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reinterpret_cast<MinidumpContextMIPS64Writer*>(context.get())
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->InitializeFromSnapshot(context_snapshot->mips64);
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break;
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}
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case kCPUArchitectureRISCV64: {
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context = std::make_unique<MinidumpContextRISCV64Writer>();
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reinterpret_cast<MinidumpContextRISCV64Writer*>(context.get())
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->InitializeFromSnapshot(context_snapshot->riscv64);
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break;
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}
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default: {
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LOG(ERROR) << "unknown context architecture "
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<< context_snapshot->architecture;
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break;
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}
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}
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return context;
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}
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size_t MinidumpContextWriter::SizeOfObject() {
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DCHECK_GE(state(), kStateFrozen);
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return ContextSize();
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}
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size_t MinidumpContextWriter::FreezeAndGetSizeOfObject() {
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Freeze();
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return SizeOfObject();
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}
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MinidumpContextX86Writer::MinidumpContextX86Writer()
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: MinidumpContextWriter(), context_() {
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context_.context_flags = kMinidumpContextX86;
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}
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MinidumpContextX86Writer::~MinidumpContextX86Writer() {
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}
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void MinidumpContextX86Writer::InitializeFromSnapshot(
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const CPUContextX86* context_snapshot) {
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DCHECK_EQ(state(), kStateMutable);
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DCHECK_EQ(context_.context_flags, kMinidumpContextX86);
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context_.context_flags = kMinidumpContextX86All;
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context_.dr0 = context_snapshot->dr0;
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context_.dr1 = context_snapshot->dr1;
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context_.dr2 = context_snapshot->dr2;
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context_.dr3 = context_snapshot->dr3;
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context_.dr6 = context_snapshot->dr6;
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context_.dr7 = context_snapshot->dr7;
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// The contents of context_.fsave effectively alias everything in
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// context_.fxsave that’s related to x87 FPU state. context_.fsave doesn’t
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// carry state specific to SSE (or later), such as mxcsr and the xmm
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// registers.
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CPUContextX86::FxsaveToFsave(context_snapshot->fxsave, &context_.fsave);
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context_.gs = context_snapshot->gs;
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context_.fs = context_snapshot->fs;
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context_.es = context_snapshot->es;
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context_.ds = context_snapshot->ds;
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context_.edi = context_snapshot->edi;
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context_.esi = context_snapshot->esi;
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context_.ebx = context_snapshot->ebx;
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context_.edx = context_snapshot->edx;
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context_.ecx = context_snapshot->ecx;
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context_.eax = context_snapshot->eax;
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context_.ebp = context_snapshot->ebp;
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context_.eip = context_snapshot->eip;
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context_.cs = context_snapshot->cs;
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context_.eflags = context_snapshot->eflags;
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context_.esp = context_snapshot->esp;
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context_.ss = context_snapshot->ss;
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// This is effectively a memcpy() of a big structure.
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context_.fxsave = context_snapshot->fxsave;
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}
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bool MinidumpContextX86Writer::WriteObject(FileWriterInterface* file_writer) {
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DCHECK_EQ(state(), kStateWritable);
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return file_writer->Write(&context_, sizeof(context_));
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}
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size_t MinidumpContextX86Writer::ContextSize() const {
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DCHECK_GE(state(), kStateFrozen);
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return sizeof(context_);
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}
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static_assert(alignof(MinidumpContextAMD64) >= 16,
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"MinidumpContextAMD64 alignment");
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static_assert(alignof(MinidumpContextAMD64Writer) >=
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alignof(MinidumpContextAMD64),
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"MinidumpContextAMD64Writer alignment");
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MinidumpContextAMD64Writer::MinidumpContextAMD64Writer()
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: MinidumpContextWriter(), context_() {
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context_.context_flags = kMinidumpContextAMD64;
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}
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MinidumpContextAMD64Writer::~MinidumpContextAMD64Writer() {
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}
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// static
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void* MinidumpContextAMD64Writer::operator new(size_t size) {
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// MinidumpContextAMD64 requests an alignment of 16, which can be larger than
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// what standard new provides. This may trigger MSVC warning C4316. As a
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// workaround to this language deficiency, provide a custom allocation
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// function to allocate a block meeting the alignment requirement.
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return AlignedAllocate(alignof(MinidumpContextAMD64Writer), size);
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}
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// static
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void MinidumpContextAMD64Writer::operator delete(void* pointer) {
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return AlignedFree(pointer);
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}
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void MinidumpContextAMD64Writer::InitializeFromSnapshot(
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const CPUContextX86_64* context_snapshot) {
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DCHECK_EQ(state(), kStateMutable);
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DCHECK_EQ(context_.context_flags, kMinidumpContextAMD64);
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if (context_snapshot->xstate.enabled_features != 0) {
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// Extended context.
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context_.context_flags =
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kMinidumpContextAMD64All | kMinidumpContextAMD64Xstate;
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} else {
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// Fixed size context - no xsave components.
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context_.context_flags = kMinidumpContextAMD64All;
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}
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context_.mx_csr = context_snapshot->fxsave.mxcsr;
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context_.cs = context_snapshot->cs;
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context_.fs = context_snapshot->fs;
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context_.gs = context_snapshot->gs;
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// The top 32 bits of rflags are reserved/unused.
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context_.eflags = static_cast<uint32_t>(context_snapshot->rflags);
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context_.dr0 = context_snapshot->dr0;
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context_.dr1 = context_snapshot->dr1;
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context_.dr2 = context_snapshot->dr2;
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context_.dr3 = context_snapshot->dr3;
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context_.dr6 = context_snapshot->dr6;
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context_.dr7 = context_snapshot->dr7;
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context_.rax = context_snapshot->rax;
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context_.rcx = context_snapshot->rcx;
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context_.rdx = context_snapshot->rdx;
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context_.rbx = context_snapshot->rbx;
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context_.rsp = context_snapshot->rsp;
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context_.rbp = context_snapshot->rbp;
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context_.rsi = context_snapshot->rsi;
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context_.rdi = context_snapshot->rdi;
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context_.r8 = context_snapshot->r8;
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context_.r9 = context_snapshot->r9;
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context_.r10 = context_snapshot->r10;
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context_.r11 = context_snapshot->r11;
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context_.r12 = context_snapshot->r12;
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context_.r13 = context_snapshot->r13;
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context_.r14 = context_snapshot->r14;
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context_.r15 = context_snapshot->r15;
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context_.rip = context_snapshot->rip;
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// This is effectively a memcpy() of a big structure.
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context_.fxsave = context_snapshot->fxsave;
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// If XSave features are being recorded store in xsave_entries in xcomp_bv
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// order. We will not see features we do not support as we provide flags
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// to the OS when first obtaining a snapshot.
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if (context_snapshot->xstate.enabled_features & XSTATE_MASK_CET_U) {
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auto cet_u = std::make_unique<MinidumpXSaveAMD64CetU>();
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cet_u->InitializeFromSnapshot(context_snapshot);
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xsave_entries_.push_back(std::move(cet_u));
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}
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}
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size_t MinidumpContextAMD64Writer::Alignment() {
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DCHECK_GE(state(), kStateFrozen);
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// Match the alignment of MinidumpContextAMD64.
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return 16;
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}
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bool MinidumpContextAMD64Writer::WriteObject(FileWriterInterface* file_writer) {
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DCHECK_EQ(state(), kStateWritable);
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// Note: all sizes here come from our constants, not from untrustworthy data.
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std::vector<unsigned char> data(ContextSize());
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unsigned char* const buf = data.data();
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// CONTEXT always comes first.
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DCHECK_LE(sizeof(context_), data.size());
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memcpy(buf, &context_, sizeof(context_));
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if (xsave_entries_.size() > 0) {
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MinidumpContextExHeader context_ex = {{0, 0}, {0, 0}, {0, 0}};
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MinidumpXSaveAreaHeader xsave_header = {0, 0, {}};
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// CONTEXT_EX goes directly after the CONTEXT. |offset| is relative to
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// &CONTEXT_EX.
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context_ex.all.offset = -static_cast<int32_t>(sizeof(context_));
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context_ex.all.size = static_cast<uint32_t>(ContextSize());
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context_ex.legacy.offset = context_ex.all.offset;
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context_ex.legacy.size = sizeof(context_);
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// Then... there is a gap.
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//
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// In the compacted format the XSave area header goes just before
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// the first xsave entry. It has a total size given by the header
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// + (padded) sizes of all the entries.
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context_ex.xstate.offset = static_cast<int32_t>(
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kMinidumpAMD64XSaveOffset - sizeof(MinidumpXSaveAreaHeader) -
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sizeof(context_));
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context_ex.xstate.size =
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static_cast<uint32_t>(sizeof(MinidumpXSaveAreaHeader) + ContextSize() -
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kMinidumpAMD64XSaveOffset);
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// Store CONTEXT_EX now it is complete.
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DCHECK_LE(sizeof(context_) + sizeof(context_ex), data.size());
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memcpy(&buf[sizeof(context_)], &context_ex, sizeof(context_ex));
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// Calculate flags for xsave header & write entries (they will be
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// *after* the xsave header).
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size_t cursor = kMinidumpAMD64XSaveOffset;
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for (auto const& entry : xsave_entries_) {
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xsave_header.mask |= 1ull << entry->XCompBVBit();
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DCHECK_LE(cursor + entry->Size(), data.size());
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entry->Copy(&buf[cursor]);
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cursor += entry->Size();
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}
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xsave_header.compaction_mask =
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xsave_header.mask | XSTATE_COMPACTION_ENABLE_MASK;
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// Store xsave header at its calculated offset. It is before the entries
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// above, but we need to add the |mask| bits before writing it.
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DCHECK_LE(
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context_ex.xstate.offset + sizeof(context_) + sizeof(xsave_header),
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data.size());
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memcpy(&buf[context_ex.xstate.offset + sizeof(context_)],
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&xsave_header,
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sizeof(xsave_header));
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}
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if (!file_writer->Write(data.data(), data.size()))
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return false;
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return true;
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}
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size_t MinidumpContextAMD64Writer::ContextSize() const {
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DCHECK_GE(state(), kStateFrozen);
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if (xsave_entries_.size() == 0) {
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return sizeof(context_);
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} else {
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DCHECK_EQ(context_.context_flags,
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kMinidumpContextAMD64All | kMinidumpContextAMD64Xstate);
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DCHECK(xsave_entries_.size() != 0);
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size_t size = kMinidumpAMD64XSaveOffset;
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for (auto& entry : xsave_entries_) {
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size += entry->Size();
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}
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return size;
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}
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}
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bool MinidumpXSaveAMD64CetU::InitializeFromSnapshot(
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const CPUContextX86_64* context_snapshot) {
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// Exception records do not carry CET registers but we have to provide the
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// same shaped context for threads and exception contexts, so both 0 (no ssp
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// present) and 1 (ssp present) are expected.
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DCHECK(context_snapshot->xstate.cet_u.cetmsr == 0ull ||
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context_snapshot->xstate.cet_u.cetmsr == 1ull);
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cet_u_.cetmsr = context_snapshot->xstate.cet_u.cetmsr;
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cet_u_.ssp = context_snapshot->xstate.cet_u.ssp;
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return true;
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}
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bool MinidumpXSaveAMD64CetU::Copy(void* dst) const {
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memcpy(dst, &cet_u_, sizeof(cet_u_));
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return true;
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}
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MinidumpContextARMWriter::MinidumpContextARMWriter()
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: MinidumpContextWriter(), context_() {
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context_.context_flags = kMinidumpContextARM;
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}
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MinidumpContextARMWriter::~MinidumpContextARMWriter() = default;
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void MinidumpContextARMWriter::InitializeFromSnapshot(
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const CPUContextARM* context_snapshot) {
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DCHECK_EQ(state(), kStateMutable);
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DCHECK_EQ(context_.context_flags, kMinidumpContextARM);
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context_.context_flags = kMinidumpContextARMAll;
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static_assert(sizeof(context_.regs) == sizeof(context_snapshot->regs),
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"GPRS size mismatch");
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memcpy(context_.regs, context_snapshot->regs, sizeof(context_.regs));
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context_.fp = context_snapshot->fp;
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context_.ip = context_snapshot->ip;
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context_.sp = context_snapshot->sp;
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context_.lr = context_snapshot->lr;
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context_.pc = context_snapshot->pc;
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context_.cpsr = context_snapshot->cpsr;
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context_.fpscr = context_snapshot->vfp_regs.fpscr;
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static_assert(sizeof(context_.vfp) == sizeof(context_snapshot->vfp_regs.vfp),
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"VFP size mismatch");
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memcpy(context_.vfp, context_snapshot->vfp_regs.vfp, sizeof(context_.vfp));
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memset(context_.extra, 0, sizeof(context_.extra));
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}
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bool MinidumpContextARMWriter::WriteObject(FileWriterInterface* file_writer) {
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DCHECK_EQ(state(), kStateWritable);
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return file_writer->Write(&context_, sizeof(context_));
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}
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size_t MinidumpContextARMWriter::ContextSize() const {
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DCHECK_GE(state(), kStateFrozen);
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return sizeof(context_);
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}
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MinidumpContextARM64Writer::MinidumpContextARM64Writer()
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: MinidumpContextWriter(), context_() {
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context_.context_flags = kMinidumpContextARM64;
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}
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MinidumpContextARM64Writer::~MinidumpContextARM64Writer() = default;
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void MinidumpContextARM64Writer::InitializeFromSnapshot(
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const CPUContextARM64* context_snapshot) {
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DCHECK_EQ(state(), kStateMutable);
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DCHECK_EQ(context_.context_flags, kMinidumpContextARM64);
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context_.context_flags = kMinidumpContextARM64Full;
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static_assert(
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sizeof(context_.regs) == sizeof(context_snapshot->regs) -
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2 * sizeof(context_snapshot->regs[0]),
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"GPRs size mismatch");
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memcpy(context_.regs, context_snapshot->regs, sizeof(context_.regs));
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context_.fp = context_snapshot->regs[29];
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context_.lr = context_snapshot->regs[30];
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context_.sp = context_snapshot->sp;
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context_.pc = context_snapshot->pc;
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context_.cpsr = context_snapshot->spsr;
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static_assert(sizeof(context_.fpsimd) == sizeof(context_snapshot->fpsimd),
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"FPSIMD size mismatch");
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memcpy(context_.fpsimd, context_snapshot->fpsimd, sizeof(context_.fpsimd));
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context_.fpcr = context_snapshot->fpcr;
|
||
context_.fpsr = context_snapshot->fpsr;
|
||
|
||
memset(context_.bcr, 0, sizeof(context_.bcr));
|
||
memset(context_.bvr, 0, sizeof(context_.bvr));
|
||
memset(context_.wcr, 0, sizeof(context_.wcr));
|
||
memset(context_.wvr, 0, sizeof(context_.wvr));
|
||
}
|
||
|
||
bool MinidumpContextARM64Writer::WriteObject(FileWriterInterface* file_writer) {
|
||
DCHECK_EQ(state(), kStateWritable);
|
||
return file_writer->Write(&context_, sizeof(context_));
|
||
}
|
||
|
||
size_t MinidumpContextARM64Writer::ContextSize() const {
|
||
DCHECK_GE(state(), kStateFrozen);
|
||
return sizeof(context_);
|
||
}
|
||
|
||
MinidumpContextMIPSWriter::MinidumpContextMIPSWriter()
|
||
: MinidumpContextWriter(), context_() {
|
||
context_.context_flags = kMinidumpContextMIPS;
|
||
}
|
||
|
||
MinidumpContextMIPSWriter::~MinidumpContextMIPSWriter() = default;
|
||
|
||
void MinidumpContextMIPSWriter::InitializeFromSnapshot(
|
||
const CPUContextMIPS* context_snapshot) {
|
||
DCHECK_EQ(state(), kStateMutable);
|
||
DCHECK_EQ(context_.context_flags, kMinidumpContextMIPS);
|
||
|
||
context_.context_flags = kMinidumpContextMIPSAll;
|
||
|
||
static_assert(sizeof(context_.regs) == sizeof(context_snapshot->regs),
|
||
"GPRs size mismatch");
|
||
memcpy(context_.regs, context_snapshot->regs, sizeof(context_.regs));
|
||
context_.mdhi = context_snapshot->mdhi;
|
||
context_.mdlo = context_snapshot->mdlo;
|
||
context_.epc = context_snapshot->cp0_epc;
|
||
context_.badvaddr = context_snapshot->cp0_badvaddr;
|
||
context_.status = context_snapshot->cp0_status;
|
||
context_.cause = context_snapshot->cp0_cause;
|
||
|
||
static_assert(sizeof(context_.fpregs) == sizeof(context_snapshot->fpregs),
|
||
"FPRs size mismatch");
|
||
memcpy(&context_.fpregs, &context_snapshot->fpregs, sizeof(context_.fpregs));
|
||
context_.fpcsr = context_snapshot->fpcsr;
|
||
context_.fir = context_snapshot->fir;
|
||
|
||
for (size_t index = 0; index < 3; ++index) {
|
||
context_.hi[index] = context_snapshot->hi[index];
|
||
context_.lo[index] = context_snapshot->lo[index];
|
||
}
|
||
context_.dsp_control = context_snapshot->dsp_control;
|
||
}
|
||
|
||
bool MinidumpContextMIPSWriter::WriteObject(FileWriterInterface* file_writer) {
|
||
DCHECK_EQ(state(), kStateWritable);
|
||
return file_writer->Write(&context_, sizeof(context_));
|
||
}
|
||
|
||
size_t MinidumpContextMIPSWriter::ContextSize() const {
|
||
DCHECK_GE(state(), kStateFrozen);
|
||
return sizeof(context_);
|
||
}
|
||
|
||
MinidumpContextMIPS64Writer::MinidumpContextMIPS64Writer()
|
||
: MinidumpContextWriter(), context_() {
|
||
context_.context_flags = kMinidumpContextMIPS64;
|
||
}
|
||
|
||
MinidumpContextMIPS64Writer::~MinidumpContextMIPS64Writer() = default;
|
||
|
||
void MinidumpContextMIPS64Writer::InitializeFromSnapshot(
|
||
const CPUContextMIPS64* context_snapshot) {
|
||
DCHECK_EQ(state(), kStateMutable);
|
||
DCHECK_EQ(context_.context_flags, kMinidumpContextMIPS64);
|
||
|
||
context_.context_flags = kMinidumpContextMIPS64All;
|
||
|
||
static_assert(sizeof(context_.regs) == sizeof(context_snapshot->regs),
|
||
"GPRs size mismatch");
|
||
memcpy(context_.regs, context_snapshot->regs, sizeof(context_.regs));
|
||
context_.mdhi = context_snapshot->mdhi;
|
||
context_.mdlo = context_snapshot->mdlo;
|
||
context_.epc = context_snapshot->cp0_epc;
|
||
context_.badvaddr = context_snapshot->cp0_badvaddr;
|
||
context_.status = context_snapshot->cp0_status;
|
||
context_.cause = context_snapshot->cp0_cause;
|
||
|
||
static_assert(sizeof(context_.fpregs) == sizeof(context_snapshot->fpregs),
|
||
"FPRs size mismatch");
|
||
memcpy(context_.fpregs.dregs,
|
||
context_snapshot->fpregs.dregs,
|
||
sizeof(context_.fpregs.dregs));
|
||
context_.fpcsr = context_snapshot->fpcsr;
|
||
context_.fir = context_snapshot->fir;
|
||
|
||
for (size_t index = 0; index < 3; ++index) {
|
||
context_.hi[index] = context_snapshot->hi[index];
|
||
context_.lo[index] = context_snapshot->lo[index];
|
||
}
|
||
context_.dsp_control = context_snapshot->dsp_control;
|
||
}
|
||
|
||
bool MinidumpContextMIPS64Writer::WriteObject(
|
||
FileWriterInterface* file_writer) {
|
||
DCHECK_EQ(state(), kStateWritable);
|
||
return file_writer->Write(&context_, sizeof(context_));
|
||
}
|
||
|
||
size_t MinidumpContextMIPS64Writer::ContextSize() const {
|
||
DCHECK_GE(state(), kStateFrozen);
|
||
return sizeof(context_);
|
||
}
|
||
|
||
MinidumpContextRISCV64Writer::MinidumpContextRISCV64Writer()
|
||
: MinidumpContextWriter(), context_() {
|
||
context_.context_flags = kMinidumpContextRISCV64;
|
||
context_.version = MinidumpContextRISCV64::kVersion;
|
||
}
|
||
|
||
MinidumpContextRISCV64Writer::~MinidumpContextRISCV64Writer() = default;
|
||
|
||
void MinidumpContextRISCV64Writer::InitializeFromSnapshot(
|
||
const CPUContextRISCV64* context_snapshot) {
|
||
DCHECK_EQ(state(), kStateMutable);
|
||
DCHECK_EQ(context_.context_flags, kMinidumpContextRISCV64);
|
||
|
||
context_.context_flags = kMinidumpContextRISCV64All;
|
||
context_.version = MinidumpContextRISCV64::kVersion;
|
||
context_.pc = context_snapshot->pc;
|
||
|
||
static_assert(sizeof(context_.regs) == sizeof(context_snapshot->regs),
|
||
"GPRs size mismatch");
|
||
memcpy(context_.regs, context_snapshot->regs, sizeof(context_.regs));
|
||
|
||
static_assert(sizeof(context_.fpregs) == sizeof(context_snapshot->fpregs),
|
||
"FPRs size mismatch");
|
||
memcpy(context_.fpregs, context_snapshot->fpregs, sizeof(context_.fpregs));
|
||
context_.fcsr = context_snapshot->fcsr;
|
||
}
|
||
|
||
bool MinidumpContextRISCV64Writer::WriteObject(
|
||
FileWriterInterface* file_writer) {
|
||
DCHECK_EQ(state(), kStateWritable);
|
||
return file_writer->Write(&context_, sizeof(context_));
|
||
}
|
||
|
||
size_t MinidumpContextRISCV64Writer::ContextSize() const {
|
||
DCHECK_GE(state(), kStateFrozen);
|
||
return sizeof(context_);
|
||
}
|
||
|
||
} // namespace crashpad
|