:q! This diff is massive, but it's because it connects the client with lldb-server and also ensures that the postmortem case works. - Flatten the postmortem trace schema. The reason is that the schema has become quite complex due to the new multicore case, which defeats the original purpose of having a schema that could work for every trace plug-in. At this point, it's better that each trace plug-in defines it's own full schema. This means that the only common field is "type". -- Because of this new approach, I merged the "common" trace load and saving functionalities into the IntelPT one. This simplified the code quite a bit. If we eventually implement another trace plug-in, we can see then what we could reuse. -- The new schema, which is flattened, has now better comments and is parsed better. A change I did was to disallow hex addresses, because they are a bit error prone. I'm asking now to print the address in decimal. -- Renamed "intel" to "GenuineIntel" in the schema because that's what you see in /proc/cpuinfo. - Implemented reading the context switch trace data buffer. I had to do some refactors to do that cleanly. -- A major change that I did here was to simplify the perf_event circular buffer reading logic. It was too complex. Maybe the original Intel author had something different in mind. - Implemented all the necessary bits to read trace.json files with per-core data. - Implemented all the necessary bits to save to disk per-core trace session. - Added a test that ensures that parsing and saving to disk works. Differential Revision: https://reviews.llvm.org/D126015
233 lines
7.4 KiB
C++
233 lines
7.4 KiB
C++
//===-- IntelPTCollector.cpp ------------------------------------------------===//
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//
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// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
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// See https://llvm.org/LICENSE.txt for license information.
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// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
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//
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//===----------------------------------------------------------------------===//
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#include "IntelPTCollector.h"
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#include "Perf.h"
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#include "Procfs.h"
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#include "Plugins/Process/POSIX/ProcessPOSIXLog.h"
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#include "lldb/Host/linux/Support.h"
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#include "lldb/Utility/StreamString.h"
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#include "llvm/ADT/StringRef.h"
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#include "llvm/Support/Error.h"
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#include "llvm/Support/MathExtras.h"
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#include <algorithm>
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#include <cstddef>
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#include <fstream>
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#include <linux/perf_event.h>
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#include <sstream>
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#include <sys/ioctl.h>
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#include <sys/syscall.h>
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using namespace lldb;
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using namespace lldb_private;
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using namespace process_linux;
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using namespace llvm;
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IntelPTCollector::IntelPTCollector(NativeProcessProtocol &process)
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: m_process(process) {}
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llvm::Expected<LinuxPerfZeroTscConversion &>
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IntelPTCollector::FetchPerfTscConversionParameters() {
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if (!m_cached_tsc_conversion) {
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if (Expected<LinuxPerfZeroTscConversion> tsc_conversion =
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LoadPerfTscConversionParameters())
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m_cached_tsc_conversion = std::move(*tsc_conversion);
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else
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return createStringError(inconvertibleErrorCode(),
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"Unable to load TSC to wall time conversion: %s",
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toString(tsc_conversion.takeError()).c_str());
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}
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return *m_cached_tsc_conversion;
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}
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Error IntelPTCollector::TraceStop(lldb::tid_t tid) {
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if (m_process_trace_up && m_process_trace_up->TracesThread(tid))
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return m_process_trace_up->TraceStop(tid);
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return m_thread_traces.TraceStop(tid);
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}
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Error IntelPTCollector::TraceStop(const TraceStopRequest &request) {
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if (request.IsProcessTracing()) {
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Clear();
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return Error::success();
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} else {
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Error error = Error::success();
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for (int64_t tid : *request.tids)
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error = joinErrors(std::move(error),
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TraceStop(static_cast<lldb::tid_t>(tid)));
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return error;
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}
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}
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Error IntelPTCollector::TraceStart(const TraceIntelPTStartRequest &request) {
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if (request.IsProcessTracing()) {
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if (m_process_trace_up) {
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return createStringError(
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inconvertibleErrorCode(),
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"Process currently traced. Stop process tracing first");
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}
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if (request.IsPerCoreTracing()) {
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if (m_thread_traces.GetTracedThreadsCount() > 0)
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return createStringError(
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inconvertibleErrorCode(),
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"Threads currently traced. Stop tracing them first.");
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// CPU tracing is useless if we can't convert tsc to nanos.
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Expected<LinuxPerfZeroTscConversion &> tsc_conversion =
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FetchPerfTscConversionParameters();
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if (!tsc_conversion)
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return tsc_conversion.takeError();
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// We force the enabledment of TSCs, which is needed for correlating the
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// cpu traces.
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TraceIntelPTStartRequest effective_request = request;
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effective_request.enable_tsc = true;
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if (Expected<IntelPTProcessTraceUP> trace =
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IntelPTMultiCoreTrace::StartOnAllCores(effective_request,
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m_process)) {
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m_process_trace_up = std::move(*trace);
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return Error::success();
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} else {
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return trace.takeError();
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}
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} else {
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std::vector<lldb::tid_t> process_threads;
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for (size_t i = 0; m_process.GetThreadAtIndex(i); i++)
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process_threads.push_back(m_process.GetThreadAtIndex(i)->GetID());
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// per-thread process tracing
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if (Expected<IntelPTProcessTraceUP> trace =
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IntelPTPerThreadProcessTrace::Start(request, process_threads)) {
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m_process_trace_up = std::move(trace.get());
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return Error::success();
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} else {
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return trace.takeError();
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}
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}
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} else {
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// individual thread tracing
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Error error = Error::success();
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for (int64_t tid : *request.tids) {
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if (m_process_trace_up && m_process_trace_up->TracesThread(tid))
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error = joinErrors(
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std::move(error),
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createStringError(inconvertibleErrorCode(),
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formatv("Thread with tid {0} is currently "
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"traced. Stop tracing it first.",
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tid)
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.str()
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.c_str()));
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else
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error = joinErrors(std::move(error),
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m_thread_traces.TraceStart(tid, request));
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}
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return error;
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}
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}
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void IntelPTCollector::ProcessWillResume() {
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if (m_process_trace_up)
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m_process_trace_up->ProcessWillResume();
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}
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void IntelPTCollector::ProcessDidStop() {
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if (m_process_trace_up)
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m_process_trace_up->ProcessDidStop();
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}
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Error IntelPTCollector::OnThreadCreated(lldb::tid_t tid) {
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if (m_process_trace_up)
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return m_process_trace_up->TraceStart(tid);
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return Error::success();
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}
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Error IntelPTCollector::OnThreadDestroyed(lldb::tid_t tid) {
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if (m_process_trace_up && m_process_trace_up->TracesThread(tid))
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return m_process_trace_up->TraceStop(tid);
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else if (m_thread_traces.TracesThread(tid))
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return m_thread_traces.TraceStop(tid);
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return Error::success();
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}
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Expected<json::Value> IntelPTCollector::GetState() {
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Expected<ArrayRef<uint8_t>> cpu_info = GetProcfsCpuInfo();
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if (!cpu_info)
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return cpu_info.takeError();
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TraceIntelPTGetStateResponse state;
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if (m_process_trace_up)
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state = m_process_trace_up->GetState();
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state.process_binary_data.push_back(
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{IntelPTDataKinds::kProcFsCpuInfo, cpu_info->size()});
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m_thread_traces.ForEachThread(
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[&](lldb::tid_t tid, const IntelPTSingleBufferTrace &thread_trace) {
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state.traced_threads.push_back({tid,
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{{IntelPTDataKinds::kTraceBuffer,
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thread_trace.GetTraceBufferSize()}}});
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});
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if (Expected<LinuxPerfZeroTscConversion &> tsc_conversion =
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FetchPerfTscConversionParameters())
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state.tsc_perf_zero_conversion = *tsc_conversion;
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else
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state.AddWarning(toString(tsc_conversion.takeError()));
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return toJSON(state);
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}
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Expected<std::vector<uint8_t>>
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IntelPTCollector::GetBinaryData(const TraceGetBinaryDataRequest &request) {
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if (request.kind == IntelPTDataKinds::kProcFsCpuInfo)
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return GetProcfsCpuInfo();
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if (m_process_trace_up) {
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Expected<Optional<std::vector<uint8_t>>> data =
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m_process_trace_up->TryGetBinaryData(request);
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if (!data)
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return data.takeError();
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if (*data)
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return **data;
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}
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{
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Expected<Optional<std::vector<uint8_t>>> data =
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m_thread_traces.TryGetBinaryData(request);
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if (!data)
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return data.takeError();
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if (*data)
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return **data;
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}
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return createStringError(
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inconvertibleErrorCode(),
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formatv("Can't fetch data kind {0} for core_id {1}, tid {2} and "
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"\"process tracing\" mode {3}",
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request.kind, request.core_id, request.tid,
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m_process_trace_up ? "enabled" : "not enabled"));
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}
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bool IntelPTCollector::IsSupported() {
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if (Expected<uint32_t> intel_pt_type = GetIntelPTOSEventType()) {
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return true;
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} else {
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llvm::consumeError(intel_pt_type.takeError());
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return false;
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}
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}
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void IntelPTCollector::Clear() {
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m_process_trace_up.reset();
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m_thread_traces.Clear();
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}
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