llvm/lldb/source/Plugins/Trace/intel-pt/TraceIntelPTBundleLoader.cpp

//===-- TraceIntelPTBundleLoader.cpp --------------------------------------===//
//
// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
// See https://llvm.org/LICENSE.txt for license information.
// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
//
//===----------------------------------------------------------------------===//

#include "TraceIntelPTBundleLoader.h"

#include "../common/ThreadPostMortemTrace.h"
#include "TraceIntelPT.h"
#include "TraceIntelPTConstants.h"
#include "TraceIntelPTJSONStructs.h"
#include "lldb/Core/Debugger.h"
#include "lldb/Core/Module.h"
#include "lldb/Target/Process.h"
#include "lldb/Target/ProcessTrace.h"
#include "lldb/Target/Target.h"
#include <optional>

using namespace lldb;
using namespace lldb_private;
using namespace lldb_private::trace_intel_pt;
using namespace llvm;

FileSpec TraceIntelPTBundleLoader::NormalizePath(const std::string &path) {
  FileSpec file_spec(path);
  if (file_spec.IsRelative())
    file_spec.PrependPathComponent(m_bundle_dir);
  return file_spec;
}

Error TraceIntelPTBundleLoader::ParseModule(Target &target,
                                            const JSONModule &module) {
  auto do_parse = [&]() -> Error {
    FileSpec system_file_spec(module.system_path);

    FileSpec local_file_spec(module.file.has_value() ? *module.file
                                                     : module.system_path);

    ModuleSpec module_spec;
    module_spec.GetFileSpec() = local_file_spec;
    module_spec.GetPlatformFileSpec() = system_file_spec;

    if (module.uuid.has_value())
      module_spec.GetUUID().SetFromStringRef(*module.uuid);

    Status error;
    ModuleSP module_sp =
        target.GetOrCreateModule(module_spec, /*notify*/ false, &error);

    if (error.Fail())
      return error.ToError();

    bool load_addr_changed = false;
    module_sp->SetLoadAddress(target, module.load_address.value, false,
                              load_addr_changed);
    return Error::success();
  };
  if (Error err = do_parse())
    return createStringError(
        inconvertibleErrorCode(), "Error when parsing module %s. %s",
        module.system_path.c_str(), toString(std::move(err)).c_str());
  return Error::success();
}

Error TraceIntelPTBundleLoader::CreateJSONError(json::Path::Root &root,
                                                const json::Value &value) {
  std::string err;
  raw_string_ostream os(err);
  root.printErrorContext(value, os);
  return createStringError(
      std::errc::invalid_argument, "%s\n\nContext:\n%s\n\nSchema:\n%s",
      toString(root.getError()).c_str(), os.str().c_str(), GetSchema().data());
}

ThreadPostMortemTraceSP
TraceIntelPTBundleLoader::ParseThread(Process &process,
                                      const JSONThread &thread) {
  lldb::tid_t tid = static_cast<lldb::tid_t>(thread.tid);

  std::optional<FileSpec> trace_file;
  if (thread.ipt_trace)
    trace_file = FileSpec(*thread.ipt_trace);

  ThreadPostMortemTraceSP thread_sp =
      std::make_shared<ThreadPostMortemTrace>(process, tid, trace_file);
  process.GetThreadList().AddThread(thread_sp);
  return thread_sp;
}

Expected<TraceIntelPTBundleLoader::ParsedProcess>
TraceIntelPTBundleLoader::CreateEmptyProcess(lldb::pid_t pid,
                                             llvm::StringRef triple) {
  TargetSP target_sp;
  Status error = m_debugger.GetTargetList().CreateTarget(
      m_debugger, /*user_exe_path*/ StringRef(), triple, eLoadDependentsNo,
      /*platform_options*/ nullptr, target_sp);

  if (!target_sp)
    return error.ToError();

  ParsedProcess parsed_process;
  parsed_process.target_sp = target_sp;

  ProcessTrace::Initialize();
  ProcessSP process_sp = target_sp->CreateProcess(
      /*listener*/ nullptr, "trace",
      /*crash_file*/ nullptr,
      /*can_connect*/ false);

  process_sp->SetID(static_cast<lldb::pid_t>(pid));

  return parsed_process;
}

Expected<TraceIntelPTBundleLoader::ParsedProcess>
TraceIntelPTBundleLoader::ParseProcess(const JSONProcess &process) {
  Expected<ParsedProcess> parsed_process =
      CreateEmptyProcess(process.pid, process.triple.value_or(""));

  if (!parsed_process)
    return parsed_process.takeError();

  ProcessSP process_sp = parsed_process->target_sp->GetProcessSP();

  for (const JSONThread &thread : process.threads)
    parsed_process->threads.push_back(ParseThread(*process_sp, thread));

  for (const JSONModule &module : process.modules)
    if (Error err = ParseModule(*parsed_process->target_sp, module))
      return std::move(err);

  if (!process.threads.empty())
    process_sp->GetThreadList().SetSelectedThreadByIndexID(0);

  // We invoke DidAttach to create a correct stopped state for the process and
  // its threads.
  ArchSpec process_arch;
  process_sp->DidAttach(process_arch);

  return parsed_process;
}

Expected<TraceIntelPTBundleLoader::ParsedProcess>
TraceIntelPTBundleLoader::ParseKernel(
    const JSONTraceBundleDescription &bundle_description) {
  Expected<ParsedProcess> parsed_process =
      CreateEmptyProcess(kDefaultKernelProcessID, "");

  if (!parsed_process)
    return parsed_process.takeError();

  ProcessSP process_sp = parsed_process->target_sp->GetProcessSP();

  // Add cpus as fake threads
  for (const JSONCpu &cpu : *bundle_description.cpus) {
    ThreadPostMortemTraceSP thread_sp = std::make_shared<ThreadPostMortemTrace>(
        *process_sp, static_cast<lldb::tid_t>(cpu.id), FileSpec(cpu.ipt_trace));
    thread_sp->SetName(formatv("kernel_cpu_{0}", cpu.id).str().c_str());
    process_sp->GetThreadList().AddThread(thread_sp);
    parsed_process->threads.push_back(thread_sp);
  }

  // Add kernel image
  FileSpec file_spec(bundle_description.kernel->file);
  ModuleSpec module_spec;
  module_spec.GetFileSpec() = file_spec;

  Status error;
  ModuleSP module_sp =
      parsed_process->target_sp->GetOrCreateModule(module_spec, false, &error);

  if (error.Fail())
    return error.ToError();

  lldb::addr_t load_address =
      bundle_description.kernel->load_address
          ? bundle_description.kernel->load_address->value
          : kDefaultKernelLoadAddress;

  bool load_addr_changed = false;
  module_sp->SetLoadAddress(*parsed_process->target_sp, load_address, false,
                            load_addr_changed);

  process_sp->GetThreadList().SetSelectedThreadByIndexID(0);

  // We invoke DidAttach to create a correct stopped state for the process and
  // its threads.
  ArchSpec process_arch;
  process_sp->DidAttach(process_arch);

  return parsed_process;
}

Expected<std::vector<TraceIntelPTBundleLoader::ParsedProcess>>
TraceIntelPTBundleLoader::LoadBundle(
    const JSONTraceBundleDescription &bundle_description) {
  std::vector<ParsedProcess> parsed_processes;

  auto HandleError = [&](Error &&err) {
    // Delete all targets that were created so far in case of failures
    for (ParsedProcess &parsed_process : parsed_processes)
      m_debugger.GetTargetList().DeleteTarget(parsed_process.target_sp);
    return std::move(err);
  };

  if (bundle_description.processes) {
    for (const JSONProcess &process : *bundle_description.processes) {
      if (Expected<ParsedProcess> parsed_process = ParseProcess(process))
        parsed_processes.push_back(std::move(*parsed_process));
      else
        return HandleError(parsed_process.takeError());
    }
  }

  if (bundle_description.kernel) {
    if (Expected<ParsedProcess> kernel_process =
            ParseKernel(bundle_description))
      parsed_processes.push_back(std::move(*kernel_process));
    else
      return HandleError(kernel_process.takeError());
  }

  return parsed_processes;
}

StringRef TraceIntelPTBundleLoader::GetSchema() {
  static std::string schema;
  if (schema.empty()) {
    schema = R"({
  "type": "intel-pt",
  "cpuInfo": {
    // CPU information gotten from, for example, /proc/cpuinfo.

    "vendor": "GenuineIntel" | "unknown",
    "family": integer,
    "model": integer,
    "stepping": integer
  },
  "processes?": [
    {
      "pid": integer,
      "triple"?: string,
          // Optional clang/llvm target triple.
          // This must be provided if the trace will be created not using the
          // CLI or on a machine other than where the target was traced.
      "threads": [
          // A list of known threads for the given process. When context switch
          // data is provided, LLDB will automatically create threads for the
          // this process whenever it finds new threads when traversing the
          // context switches, so passing values to this list in this case is
          // optional.
        {
          "tid": integer,
          "iptTrace"?: string
              // Path to the raw Intel PT buffer file for this thread.
        }
      ],
      "modules": [
        {
          "systemPath": string,
              // Original path of the module at runtime.
          "file"?: string,
              // Path to a copy of the file if not available at "systemPath".
          "loadAddress": integer | string decimal | hex string,
              // Lowest address of the sections of the module loaded on memory.
          "uuid"?: string,
              // Build UUID for the file for sanity checks.
        }
      ]
    }
  ],
  "cpus"?: [
    {
      "id": integer,
          // Id of this CPU core.
      "iptTrace": string,
          // Path to the raw Intel PT buffer for this cpu core.
      "contextSwitchTrace": string,
          // Path to the raw perf_event_open context switch trace file for this cpu core.
          // The perf_event must have been configured with PERF_SAMPLE_TID and
          // PERF_SAMPLE_TIME, as well as sample_id_all = 1.
    }
  ],
  "tscPerfZeroConversion"?: {
    // Values used to convert between TSCs and nanoseconds. See the time_zero
    // section in https://man7.org/linux/man-pages/man2/perf_event_open.2.html
    // for information.

    "timeMult": integer,
    "timeShift": integer,
    "timeZero": integer | string decimal | hex string,
  },
  "kernel"?: {
    "loadAddress"?: integer | string decimal | hex string,
        // Kernel's image load address. Defaults to 0xffffffff81000000, which
        // is a load address of x86 architecture if KASLR is not enabled.
    "file": string,
        // Path to the kernel image.
  }
}

Notes:

- All paths are either absolute or relative to folder containing the bundle
  description file.
- "cpus" is provided if and only if processes[].threads[].iptTrace is not provided.
- "tscPerfZeroConversion" must be provided if "cpus" is provided.
- If "kernel" is provided, then the "processes" section must be empty or not
  passed at all, and the "cpus" section must be provided. This configuration
  indicates that the kernel was traced and user processes weren't. Besides
  that, the kernel is treated as a single process with one thread per CPU
  core. This doesn't handle actual kernel threads, but instead treats
  all the instructions executed by the kernel on each core as an
  individual thread.})";
  }
  return schema;
}

Error TraceIntelPTBundleLoader::AugmentThreadsFromContextSwitches(
    JSONTraceBundleDescription &bundle_description) {
  if (!bundle_description.cpus || !bundle_description.processes)
    return Error::success();

  if (!bundle_description.tsc_perf_zero_conversion)
    return createStringError(inconvertibleErrorCode(),
                             "TSC to nanos conversion values are needed when "
                             "context switch information is provided.");

  DenseMap<lldb::pid_t, JSONProcess *> indexed_processes;
  DenseMap<JSONProcess *, DenseSet<tid_t>> indexed_threads;

  for (JSONProcess &process : *bundle_description.processes) {
    indexed_processes[process.pid] = &process;
    for (JSONThread &thread : process.threads)
      indexed_threads[&process].insert(thread.tid);
  }

  auto on_thread_seen = [&](lldb::pid_t pid, tid_t tid) {
    auto proc = indexed_processes.find(pid);
    if (proc == indexed_processes.end())
      return;
    if (indexed_threads[proc->second].count(tid))
      return;
    indexed_threads[proc->second].insert(tid);
    proc->second->threads.push_back({tid, /*ipt_trace=*/std::nullopt});
  };

  for (const JSONCpu &cpu : *bundle_description.cpus) {
    Error err = Trace::OnDataFileRead(
        FileSpec(cpu.context_switch_trace),
        [&](ArrayRef<uint8_t> data) -> Error {
          Expected<std::vector<ThreadContinuousExecution>> executions =
              DecodePerfContextSwitchTrace(
                  data, cpu.id, *bundle_description.tsc_perf_zero_conversion);
          if (!executions)
            return executions.takeError();
          for (const ThreadContinuousExecution &execution : *executions)
            on_thread_seen(execution.pid, execution.tid);
          return Error::success();
        });
    if (err)
      return err;
  }
  return Error::success();
}

Expected<TraceSP> TraceIntelPTBundleLoader::CreateTraceIntelPTInstance(
    JSONTraceBundleDescription &bundle_description,
    std::vector<ParsedProcess> &parsed_processes) {
  std::vector<ThreadPostMortemTraceSP> threads;
  std::vector<ProcessSP> processes;
  for (const ParsedProcess &parsed_process : parsed_processes) {
    processes.push_back(parsed_process.target_sp->GetProcessSP());
    threads.insert(threads.end(), parsed_process.threads.begin(),
                   parsed_process.threads.end());
  }

  TraceIntelPT::TraceMode trace_mode = bundle_description.kernel
                                           ? TraceIntelPT::TraceMode::KernelMode
                                           : TraceIntelPT::TraceMode::UserMode;

  TraceSP trace_instance = TraceIntelPT::CreateInstanceForPostmortemTrace(
      bundle_description, processes, threads, trace_mode);
  for (const ParsedProcess &parsed_process : parsed_processes)
    parsed_process.target_sp->SetTrace(trace_instance);

  return trace_instance;
}

void TraceIntelPTBundleLoader::NormalizeAllPaths(
    JSONTraceBundleDescription &bundle_description) {
  if (bundle_description.processes) {
    for (JSONProcess &process : *bundle_description.processes) {
      for (JSONModule &module : process.modules) {
        module.system_path = NormalizePath(module.system_path).GetPath();
        if (module.file)
          module.file = NormalizePath(*module.file).GetPath();
      }
      for (JSONThread &thread : process.threads) {
        if (thread.ipt_trace)
          thread.ipt_trace = NormalizePath(*thread.ipt_trace).GetPath();
      }
    }
  }
  if (bundle_description.cpus) {
    for (JSONCpu &cpu : *bundle_description.cpus) {
      cpu.context_switch_trace =
          NormalizePath(cpu.context_switch_trace).GetPath();
      cpu.ipt_trace = NormalizePath(cpu.ipt_trace).GetPath();
    }
  }
  if (bundle_description.kernel) {
    bundle_description.kernel->file =
        NormalizePath(bundle_description.kernel->file).GetPath();
  }
}

Expected<TraceSP> TraceIntelPTBundleLoader::Load() {
  json::Path::Root root("traceBundle");
  JSONTraceBundleDescription bundle_description;
  if (!fromJSON(m_bundle_description, bundle_description, root))
    return CreateJSONError(root, m_bundle_description);

  NormalizeAllPaths(bundle_description);

  if (Error err = AugmentThreadsFromContextSwitches(bundle_description))
    return std::move(err);

  if (Expected<std::vector<ParsedProcess>> parsed_processes =
          LoadBundle(bundle_description))
    return CreateTraceIntelPTInstance(bundle_description, *parsed_processes);
  else
    return parsed_processes.takeError();
}