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4f5dd67229
Only RV64GC is supported. Bug: fuchsia:127655 Tested: `python build/run_tests.py` on RISC-V emulator Tested: Created minidump via self-induced crash on RISC-V emulator, ran through Breakpad stackwalker Change-Id: I713797cd623b0a758269048e01696cbce502ca6c Reviewed-on: https://chromium-review.googlesource.com/c/crashpad/crashpad/+/4581050 Reviewed-by: Joshua Peraza <jperaza@chromium.org>
277 lines
8.5 KiB
C++
277 lines
8.5 KiB
C++
// Copyright 2017 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 "snapshot/linux/thread_snapshot_linux.h"
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#include <sched.h>
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#include "base/logging.h"
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#include "snapshot/linux/capture_memory_delegate_linux.h"
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#include "snapshot/linux/cpu_context_linux.h"
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#include "util/misc/reinterpret_bytes.h"
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namespace crashpad {
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namespace internal {
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namespace {
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int ComputeThreadPriority(int static_priority,
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int sched_policy,
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int nice_value) {
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// Map Linux scheduling policy, static priority, and nice value into a
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// single int value.
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//
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// The possible policies in order of approximate priority (low to high) are
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// SCHED_IDLE
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// SCHED_BATCH
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// SCHED_OTHER
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// SCHED_RR
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// SCHED_FIFO
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//
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// static_priority is not used for OTHER, BATCH, or IDLE and should be 0.
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// For FIFO and RR, static_priority should range from 1 to 99 with 99 being
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// the highest priority.
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//
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// nice value ranges from -20 to 19, with -20 being highest priority
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enum class Policy : uint8_t {
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kUnknown = 0,
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kIdle,
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kBatch,
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kOther,
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kRR,
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kFIFO
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};
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struct LinuxPriority {
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#if defined(ARCH_CPU_LITTLE_ENDIAN)
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// nice values affect how dynamic priorities are updated, which only
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// matters for threads with the same static priority.
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uint8_t nice_value = 0;
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// The scheduling policy also affects how threads with the same static
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// priority are ordered, but has greater impact than nice value.
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Policy policy = Policy::kUnknown;
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// The static priority is the most significant in determining overall
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// priority.
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uint8_t static_priority = 0;
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// Put this in the most significant byte position to prevent negative
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// priorities.
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uint8_t unused = 0;
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#elif defined(ARCH_CPU_BIG_ENDIAN)
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uint8_t unused = 0;
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uint8_t static_priority = 0;
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Policy policy = Policy::kUnknown;
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uint8_t nice_value = 0;
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#endif // ARCH_CPU_LITTLE_ENDIAN
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};
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static_assert(sizeof(LinuxPriority) <= sizeof(int), "priority is too large");
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LinuxPriority prio;
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// Lower nice values have higher priority, so negate them and add 20 to put
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// them in the range 1-40 with 40 being highest priority.
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if (nice_value < -20 || nice_value > 19) {
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LOG(WARNING) << "invalid nice value " << nice_value;
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prio.nice_value = 0;
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} else {
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prio.nice_value = -1 * nice_value + 20;
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}
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switch (sched_policy) {
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case SCHED_IDLE:
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prio.policy = Policy::kIdle;
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break;
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case SCHED_BATCH:
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prio.policy = Policy::kBatch;
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break;
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case SCHED_OTHER:
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prio.policy = Policy::kOther;
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break;
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case SCHED_RR:
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prio.policy = Policy::kRR;
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break;
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case SCHED_FIFO:
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prio.policy = Policy::kFIFO;
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break;
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default:
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prio.policy = Policy::kUnknown;
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LOG(WARNING) << "Unknown scheduling policy " << sched_policy;
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}
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if (static_priority < 0 || static_priority > 99) {
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LOG(WARNING) << "invalid static priority " << static_priority;
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}
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prio.static_priority = static_priority;
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int priority;
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if (!ReinterpretBytes(prio, &priority)) {
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LOG(ERROR) << "Couldn't set priority";
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return -1;
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}
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return priority;
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}
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} // namespace
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ThreadSnapshotLinux::ThreadSnapshotLinux()
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: ThreadSnapshot(),
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context_union_(),
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context_(),
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stack_(),
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thread_specific_data_address_(0),
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thread_name_(),
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thread_id_(-1),
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priority_(-1),
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initialized_() {}
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ThreadSnapshotLinux::~ThreadSnapshotLinux() {}
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bool ThreadSnapshotLinux::Initialize(
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ProcessReaderLinux* process_reader,
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const ProcessReaderLinux::Thread& thread,
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uint32_t* gather_indirectly_referenced_memory_bytes_remaining) {
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INITIALIZATION_STATE_SET_INITIALIZING(initialized_);
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#if defined(ARCH_CPU_X86_FAMILY)
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if (process_reader->Is64Bit()) {
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context_.architecture = kCPUArchitectureX86_64;
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context_.x86_64 = &context_union_.x86_64;
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InitializeCPUContextX86_64(thread.thread_info.thread_context.t64,
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thread.thread_info.float_context.f64,
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context_.x86_64);
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} else {
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context_.architecture = kCPUArchitectureX86;
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context_.x86 = &context_union_.x86;
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InitializeCPUContextX86(thread.thread_info.thread_context.t32,
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thread.thread_info.float_context.f32,
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context_.x86);
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}
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#elif defined(ARCH_CPU_ARM_FAMILY)
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if (process_reader->Is64Bit()) {
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context_.architecture = kCPUArchitectureARM64;
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context_.arm64 = &context_union_.arm64;
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InitializeCPUContextARM64(thread.thread_info.thread_context.t64,
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thread.thread_info.float_context.f64,
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context_.arm64);
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} else {
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context_.architecture = kCPUArchitectureARM;
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context_.arm = &context_union_.arm;
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InitializeCPUContextARM(thread.thread_info.thread_context.t32,
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thread.thread_info.float_context.f32,
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context_.arm);
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}
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#elif defined(ARCH_CPU_MIPS_FAMILY)
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if (process_reader->Is64Bit()) {
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context_.architecture = kCPUArchitectureMIPS64EL;
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context_.mips64 = &context_union_.mips64;
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InitializeCPUContextMIPS<ContextTraits64>(
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thread.thread_info.thread_context.t64,
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thread.thread_info.float_context.f64,
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context_.mips64);
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} else {
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context_.architecture = kCPUArchitectureMIPSEL;
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context_.mipsel = &context_union_.mipsel;
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InitializeCPUContextMIPS<ContextTraits32>(
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SignalThreadContext32(thread.thread_info.thread_context.t32),
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thread.thread_info.float_context.f32,
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context_.mipsel);
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}
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#elif defined(ARCH_CPU_RISCV64)
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context_.architecture = kCPUArchitectureRISCV64;
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context_.riscv64 = &context_union_.riscv64;
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InitializeCPUContextRISCV64(thread.thread_info.thread_context.t64,
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thread.thread_info.float_context.f64,
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context_.riscv64);
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#else
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#error Port.
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#endif
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stack_.Initialize(process_reader->Memory(),
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thread.stack_region_address,
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thread.stack_region_size);
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thread_specific_data_address_ =
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thread.thread_info.thread_specific_data_address;
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thread_name_ = thread.name;
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thread_id_ = thread.tid;
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priority_ =
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thread.have_priorities
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? ComputeThreadPriority(
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thread.static_priority, thread.sched_policy, thread.nice_value)
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: -1;
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CaptureMemoryDelegateLinux capture_memory_delegate(
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process_reader,
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&thread,
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&pointed_to_memory_,
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gather_indirectly_referenced_memory_bytes_remaining);
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CaptureMemory::PointedToByContext(context_, &capture_memory_delegate);
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INITIALIZATION_STATE_SET_VALID(initialized_);
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return true;
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}
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const CPUContext* ThreadSnapshotLinux::Context() const {
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INITIALIZATION_STATE_DCHECK_VALID(initialized_);
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return &context_;
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}
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const MemorySnapshot* ThreadSnapshotLinux::Stack() const {
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INITIALIZATION_STATE_DCHECK_VALID(initialized_);
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return &stack_;
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}
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uint64_t ThreadSnapshotLinux::ThreadID() const {
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INITIALIZATION_STATE_DCHECK_VALID(initialized_);
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return thread_id_;
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}
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std::string ThreadSnapshotLinux::ThreadName() const {
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INITIALIZATION_STATE_DCHECK_VALID(initialized_);
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return thread_name_;
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}
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int ThreadSnapshotLinux::SuspendCount() const {
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INITIALIZATION_STATE_DCHECK_VALID(initialized_);
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return 0;
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}
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int ThreadSnapshotLinux::Priority() const {
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INITIALIZATION_STATE_DCHECK_VALID(initialized_);
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return priority_;
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}
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uint64_t ThreadSnapshotLinux::ThreadSpecificDataAddress() const {
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INITIALIZATION_STATE_DCHECK_VALID(initialized_);
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return thread_specific_data_address_;
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}
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std::vector<const MemorySnapshot*> ThreadSnapshotLinux::ExtraMemory() const {
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INITIALIZATION_STATE_DCHECK_VALID(initialized_);
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std::vector<const MemorySnapshot*> result;
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result.reserve(pointed_to_memory_.size());
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for (const auto& pointed_to_memory : pointed_to_memory_) {
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result.push_back(pointed_to_memory.get());
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}
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return result;
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}
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} // namespace internal
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} // namespace crashpad
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