/*
 * Copyright (C) 2018 The Android Open Source Project
 *
 * Licensed under the Apache License, Version 2.0 (the "License");
 * you may not use this file except in compliance with the License.
 * You may obtain a copy of the License at
 *
 *      http://www.apache.org/licenses/LICENSE-2.0
 *
 * Unless required by applicable law or agreed to in writing, software
 * distributed under the License is distributed on an "AS IS" BASIS,
 * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 * See the License for the specific language governing permissions and
 * limitations under the License.
 */

#include "src/perfetto_cmd/perfetto_cmd.h"

#include <fcntl.h>
#include <stdio.h>
#include <sys/stat.h>
#include <sys/types.h>
#include <time.h>

#include <algorithm>
#include <array>
#include <atomic>
#include <chrono>
#include <cinttypes>
#include <cstdint>
#include <cstdlib>
#include <cstring>
#include <functional>
#include <iostream>
#include <iterator>
#include <memory>
#include <mutex>
#include <optional>
#include <random>
#include <string>
#include <thread>
#include <utility>
#include <vector>

#include "perfetto/base/build_config.h"
#include "perfetto/base/compiler.h"
#include "perfetto/base/logging.h"
#include "perfetto/base/proc_utils.h"         // IWYU pragma: keep
#include "perfetto/ext/base/android_utils.h"  // IWYU pragma: keep
#include "perfetto/ext/base/ctrl_c_handler.h"
#include "perfetto/ext/base/file_utils.h"
#include "perfetto/ext/base/getopt.h"  // IWYU pragma: keep
#include "perfetto/ext/base/no_destructor.h"
#include "perfetto/ext/base/pipe.h"
#include "perfetto/ext/base/scoped_file.h"
#include "perfetto/ext/base/string_splitter.h"
#include "perfetto/ext/base/string_utils.h"
#include "perfetto/ext/base/string_view.h"
#include "perfetto/ext/base/thread_task_runner.h"
#include "perfetto/ext/base/thread_utils.h"
#include "perfetto/ext/base/utils.h"
#include "perfetto/ext/base/uuid.h"
#include "perfetto/ext/base/version.h"
#include "perfetto/ext/base/waitable_event.h"
#include "perfetto/ext/traced/traced.h"
#include "perfetto/ext/tracing/core/basic_types.h"
#include "perfetto/ext/tracing/core/trace_packet.h"
#include "perfetto/ext/tracing/core/tracing_service.h"
#include "perfetto/ext/tracing/ipc/consumer_ipc_client.h"
#include "perfetto/tracing/core/flush_flags.h"
#include "perfetto/tracing/core/forward_decls.h"
#include "perfetto/tracing/core/trace_config.h"
#include "perfetto/tracing/default_socket.h"
#include "protos/perfetto/common/data_source_descriptor.gen.h"
#include "src/android_stats/perfetto_atoms.h"
#include "src/android_stats/statsd_logging_helper.h"
#include "src/perfetto_cmd/bugreport_path.h"
#include "src/perfetto_cmd/config.h"
#include "src/perfetto_cmd/packet_writer.h"
#include "src/perfetto_cmd/trigger_producer.h"
#include "src/trace_config_utils/txt_to_pb.h"

#include "protos/perfetto/common/ftrace_descriptor.gen.h"
#include "protos/perfetto/common/tracing_service_state.gen.h"
#include "protos/perfetto/common/track_event_descriptor.gen.h"

// For dup() (and _setmode() on windows).
#if PERFETTO_BUILDFLAG(PERFETTO_OS_WIN)
#include <fcntl.h>
#include <io.h>
#else
#include <unistd.h>
#endif

namespace perfetto {
namespace {

std::atomic<perfetto::PerfettoCmd*> g_perfetto_cmd;

const uint32_t kOnTraceDataTimeoutMs = 3000;
const uint32_t kCloneTimeoutMs = 30000;

bool ParseTraceConfigPbtxt(const std::string& file_name,
                           const std::string& pbtxt,
                           TraceConfig* config) {
  auto res = TraceConfigTxtToPb(pbtxt, file_name);
  if (!res.ok()) {
    fprintf(stderr, "%s\n", res.status().c_message());
    return false;
  }
  if (!config->ParseFromArray(res->data(), res->size()))
    return false;
  return true;
}

void ArgsAppend(std::string* str, const std::string& arg) {
  str->append(arg);
  str->append("\0", 1);
}
}  // namespace

const char* kStateDir = "/data/misc/perfetto-traces";

PerfettoCmd::PerfettoCmd() {
  // Only the main thread instance on the main thread will receive ctrl-c.
  PerfettoCmd* set_if_null = nullptr;
  g_perfetto_cmd.compare_exchange_strong(set_if_null, this);
}

PerfettoCmd::~PerfettoCmd() {
  PerfettoCmd* self = this;
  if (g_perfetto_cmd.compare_exchange_strong(self, nullptr)) {
    if (ctrl_c_handler_installed_) {
      task_runner_.RemoveFileDescriptorWatch(ctrl_c_evt_.fd());
    }
  }
}

void PerfettoCmd::PrintUsage(const char* argv0) {
  fprintf(stderr, R"(
Usage: %s
  --background     -d      : Exits immediately and continues in the background.
                             Prints the PID of the bg process. The printed PID
                             can used to gracefully terminate the tracing
                             session by issuing a `kill -TERM $PRINTED_PID`.
  --background-wait -D     : Like --background, but waits (up to 30s) for all
                             data sources to be started before exiting. Exit
                             code is zero if a successful acknowledgement is
                             received, non-zero otherwise (error or timeout).
  --clone TSID             : Creates a read-only clone of an existing tracing
                             session, identified by its ID (see --query).
  --clone-by-name NAME     : Creates a read-only clone of an existing tracing
                             session, identified by its unique_session_name in
                             the config.
  --clone-for-bugreport    : Can only be used with --clone. It disables the
                             trace_filter on the cloned session.
  --config         -c      : /path/to/trace/config/file or - for stdin
  --out            -o      : /path/to/out/trace/file or - for stdout
                             If using CLONE_SNAPSHOT triggers, each snapshot
                             will be saved in a new file with a counter suffix
                             (e.g., file.0, file.1, file.2).
  --txt                    : Parse config as pbtxt. Not for production use.
                             Not a stable API.
  --query [--long]         : Queries the service state and prints it as
                             human-readable text. --long allows the output to
                             extend past 80 chars.
  --query-raw              : Like --query, but prints raw proto-encoded bytes
                             of tracing_service_state.proto.
  --help           -h

Light configuration flags: (only when NOT using -c/--config)
  --time           -t      : Trace duration N[s,m,h] (default: 10s)
  --buffer         -b      : Ring buffer size N[mb,gb] (default: 32mb)
  --size           -s      : Max file size N[mb,gb]
                            (default: in-memory ring-buffer only)
  --app            -a      : Android (atrace) app name
  FTRACE_GROUP/FTRACE_NAME : Record ftrace event (e.g. sched/sched_switch)
  ATRACE_CAT               : Record ATRACE_CAT (e.g. wm) (Android only)

Statsd-specific and other Android-only flags:
  --alert-id           : ID of the alert that triggered this trace.
  --config-id          : ID of the triggering config.
  --config-uid         : UID of app which registered the config.
  --subscription-id    : ID of the subscription that triggered this trace.
  --upload             : Upload trace.
  --dropbox        TAG : DEPRECATED: Use --upload instead
                         TAG should always be set to 'perfetto'.
  --save-for-bugreport : If a trace with bugreport_score > 0 is running, it
                         saves it into a file. Outputs the path when done.
  --no-guardrails      : Ignore guardrails triggered when using --upload
                         (testing only).
  --reset-guardrails   : Resets the state of the guardails and exits
                         (testing only).

Detach mode. DISCOURAGED, read https://perfetto.dev/docs/concepts/detached-mode
  --detach=key          : Detach from the tracing session with the given key.
  --attach=key [--stop] : Re-attach to the session (optionally stop tracing
                          once reattached).
  --is_detached=key     : Check if the session can be re-attached.
                          Exit code:  0:Yes, 2:No, 1:Error.
)", /* this comment fixes syntax highlighting in some editors */
          argv0);
}

std::optional<int> PerfettoCmd::ParseCmdlineAndMaybeDaemonize(int argc,
                                                              char** argv) {
#if !PERFETTO_BUILDFLAG(PERFETTO_OS_WIN)
  umask(0000);  // make sure that file creation is not affected by umask.
#endif
  enum LongOption {
    OPT_ALERT_ID = 1000,
    OPT_BUGREPORT,
    OPT_BUGREPORT_ALL,
    OPT_CLONE,
    OPT_CLONE_BY_NAME,
    OPT_CLONE_SKIP_FILTER,
    OPT_CONFIG_ID,
    OPT_CONFIG_UID,
    OPT_SUBSCRIPTION_ID,
    OPT_RESET_GUARDRAILS,
    OPT_PBTXT_CONFIG,
    OPT_DROPBOX,
    OPT_UPLOAD,
    OPT_IGNORE_GUARDRAILS,
    OPT_DETACH,
    OPT_ATTACH,
    OPT_IS_DETACHED,
    OPT_STOP,
    OPT_QUERY,
    OPT_LONG,
    OPT_QUERY_RAW,
    OPT_VERSION,
  };
  static const option long_options[] = {
      {"help", no_argument, nullptr, 'h'},
      {"config", required_argument, nullptr, 'c'},
      {"out", required_argument, nullptr, 'o'},
      {"background", no_argument, nullptr, 'd'},
      {"background-wait", no_argument, nullptr, 'D'},
      {"time", required_argument, nullptr, 't'},
      {"buffer", required_argument, nullptr, 'b'},
      {"size", required_argument, nullptr, 's'},
      {"app", required_argument, nullptr, 'a'},
      {"no-guardrails", no_argument, nullptr, OPT_IGNORE_GUARDRAILS},
      {"txt", no_argument, nullptr, OPT_PBTXT_CONFIG},
      {"upload", no_argument, nullptr, OPT_UPLOAD},
      {"dropbox", required_argument, nullptr, OPT_DROPBOX},
      {"alert-id", required_argument, nullptr, OPT_ALERT_ID},
      {"config-id", required_argument, nullptr, OPT_CONFIG_ID},
      {"config-uid", required_argument, nullptr, OPT_CONFIG_UID},
      {"subscription-id", required_argument, nullptr, OPT_SUBSCRIPTION_ID},
      {"reset-guardrails", no_argument, nullptr, OPT_RESET_GUARDRAILS},
      {"detach", required_argument, nullptr, OPT_DETACH},
      {"attach", required_argument, nullptr, OPT_ATTACH},
      {"clone", required_argument, nullptr, OPT_CLONE},
      {"clone-by-name", required_argument, nullptr, OPT_CLONE_BY_NAME},
      {"clone-for-bugreport", no_argument, nullptr, OPT_CLONE_SKIP_FILTER},
      {"is_detached", required_argument, nullptr, OPT_IS_DETACHED},
      {"stop", no_argument, nullptr, OPT_STOP},
      {"query", no_argument, nullptr, OPT_QUERY},
      {"long", no_argument, nullptr, OPT_LONG},
      {"query-raw", no_argument, nullptr, OPT_QUERY_RAW},
      {"version", no_argument, nullptr, OPT_VERSION},
      {"save-for-bugreport", no_argument, nullptr, OPT_BUGREPORT},
      {"save-all-for-bugreport", no_argument, nullptr, OPT_BUGREPORT_ALL},
      {nullptr, 0, nullptr, 0}};

  std::string config_file_name;
  std::string trace_config_raw;
  bool parse_as_pbtxt = false;
  TraceConfig::StatsdMetadata statsd_metadata;

  ConfigOptions config_options;
  bool has_config_options = false;

  if (argc <= 1) {
    PrintUsage(argv[0]);
    return 1;
  }

  // getopt is not thread safe and cmdline parsing requires a mutex for the case
  // of concurrent cmdline parsing for bugreport snapshots.
  static base::NoDestructor<std::mutex> getopt_mutex;
  std::unique_lock<std::mutex> getopt_lock(getopt_mutex.ref());

  optind = 1;  // Reset getopt state. It's reused by the snapshot thread.
  for (;;) {
    int option =
        getopt_long(argc, argv, "hc:o:dDt:b:s:a:", long_options, nullptr);

    if (option == -1)
      break;  // EOF.

    if (option == 'c') {
      config_file_name = std::string(optarg);
      if (strcmp(optarg, "-") == 0) {
#if PERFETTO_BUILDFLAG(PERFETTO_OS_WIN)
        // We don't want the runtime to replace "\n" with "\r\n" on `std::cin`.
        _setmode(_fileno(stdin), _O_BINARY);
#endif
        std::istreambuf_iterator<char> begin(std::cin), end;
        trace_config_raw.assign(begin, end);
      } else if (strcmp(optarg, ":test") == 0) {
        TraceConfig test_config;
        ConfigOptions opts;
        opts.time = "2s";
        opts.categories.emplace_back("sched/sched_switch");
        opts.categories.emplace_back("power/cpu_idle");
        opts.categories.emplace_back("power/cpu_frequency");
        opts.categories.emplace_back("power/gpu_frequency");
        PERFETTO_CHECK(CreateConfigFromOptions(opts, &test_config));
        trace_config_raw = test_config.SerializeAsString();
      } else if (strcmp(optarg, ":mem") == 0) {
        // This is used by OnCloneSnapshotTriggerReceived(), which passes the
        // original trace config as a member field. This is needed because, in
        // the new PerfettoCmd instance, we need to know upfront trace config
        // fields that affect the behaviour of perfetto_cmd, e.g., the guardrail
        // overrides, the unique_session_name, the reporter API package etc.
        PERFETTO_CHECK(!snapshot_config_.empty());
        trace_config_raw = snapshot_config_;
      } else {
        if (!base::ReadFile(optarg, &trace_config_raw)) {
#if PERFETTO_BUILDFLAG(PERFETTO_ANDROID_BUILD)
          PERFETTO_PLOG(
              "Could not open %s. If this is a permission denied error, try "
              "placing the config in /data/misc/perfetto-configs: Perfetto "
              "should always be able to access this directory.",
              optarg);
#else
          PERFETTO_PLOG("Could not open %s", optarg);
#endif
          return 1;
        }
      }
      continue;
    }

    if (option == 'o') {
      trace_out_path_ = optarg;
      continue;
    }

    if (option == 'd') {
      background_ = true;
      continue;
    }

    if (option == 'D') {
      background_ = true;
      background_wait_ = true;
      continue;
    }

    if (option == OPT_CLONE) {
      clone_tsid_ = static_cast<TracingSessionID>(atoll(optarg));
      continue;
    }

    if (option == OPT_CLONE_BY_NAME) {
      clone_name_ = optarg;
      continue;
    }

    if (option == OPT_CLONE_SKIP_FILTER) {
      clone_for_bugreport_ = true;
      continue;
    }

    if (option == 't') {
      has_config_options = true;
      config_options.time = std::string(optarg);
      continue;
    }

    if (option == 'b') {
      has_config_options = true;
      config_options.buffer_size = std::string(optarg);
      continue;
    }

    if (option == 's') {
      has_config_options = true;
      config_options.max_file_size = std::string(optarg);
      continue;
    }

    if (option == 'a') {
      config_options.atrace_apps.push_back(std::string(optarg));
      has_config_options = true;
      continue;
    }

    if (option == OPT_UPLOAD) {
#if PERFETTO_BUILDFLAG(PERFETTO_OS_ANDROID)
      upload_flag_ = true;
      continue;
#else
      PERFETTO_ELOG("--upload is only supported on Android");
      return 1;
#endif
    }

    if (option == OPT_DROPBOX) {
#if PERFETTO_BUILDFLAG(PERFETTO_OS_ANDROID)
      PERFETTO_CHECK(optarg);
      upload_flag_ = true;
      continue;
#else
      PERFETTO_ELOG("--dropbox is only supported on Android");
      return 1;
#endif
    }

    if (option == OPT_PBTXT_CONFIG) {
      parse_as_pbtxt = true;
      continue;
    }

    if (option == OPT_IGNORE_GUARDRAILS) {
      ignore_guardrails_ = true;
      continue;
    }

    if (option == OPT_RESET_GUARDRAILS) {
      PERFETTO_ILOG(
          "Guardrails no longer exist in perfetto_cmd; this option only exists "
          "for backwards compatability.");
      return 0;
    }

    if (option == OPT_ALERT_ID) {
      statsd_metadata.set_triggering_alert_id(atoll(optarg));
      continue;
    }

    if (option == OPT_CONFIG_ID) {
      statsd_metadata.set_triggering_config_id(atoll(optarg));
      continue;
    }

    if (option == OPT_CONFIG_UID) {
      statsd_metadata.set_triggering_config_uid(atoi(optarg));
      continue;
    }

    if (option == OPT_SUBSCRIPTION_ID) {
      statsd_metadata.set_triggering_subscription_id(atoll(optarg));
      continue;
    }

    if (option == OPT_DETACH) {
      detach_key_ = std::string(optarg);
      PERFETTO_CHECK(!detach_key_.empty());
      continue;
    }

    if (option == OPT_ATTACH) {
      attach_key_ = std::string(optarg);
      PERFETTO_CHECK(!attach_key_.empty());
      continue;
    }

    if (option == OPT_IS_DETACHED) {
      attach_key_ = std::string(optarg);
      redetach_once_attached_ = true;
      PERFETTO_CHECK(!attach_key_.empty());
      continue;
    }

    if (option == OPT_STOP) {
      stop_trace_once_attached_ = true;
      continue;
    }

    if (option == OPT_QUERY) {
      query_service_ = true;
      continue;
    }

    if (option == OPT_LONG) {
      query_service_long_ = true;
      continue;
    }

    if (option == OPT_QUERY_RAW) {
      query_service_ = true;
      query_service_output_raw_ = true;
      continue;
    }

    if (option == OPT_VERSION) {
      printf("%s\n", base::GetVersionString());
      return 0;
    }

    if (option == OPT_BUGREPORT) {
      bugreport_ = true;
      continue;
    }

    if (option == OPT_BUGREPORT_ALL) {
      clone_all_bugreport_traces_ = true;
      continue;
    }

    PrintUsage(argv[0]);
    return 1;
  }

  for (ssize_t i = optind; i < argc; i++) {
    has_config_options = true;
    config_options.categories.push_back(argv[i]);
  }
  getopt_lock.unlock();

  if (query_service_ && (is_detach() || is_attach() || background_)) {
    PERFETTO_ELOG("--query cannot be combined with any other argument");
    return 1;
  }

  if (query_service_long_ && !query_service_) {
    PERFETTO_ELOG("--long can only be used with --query");
    return 1;
  }

  if (is_detach() && is_attach()) {
    PERFETTO_ELOG("--attach and --detach are mutually exclusive");
    return 1;
  }

  if (is_detach() && background_) {
    PERFETTO_ELOG("--detach and --background are mutually exclusive");
    return 1;
  }

  if (stop_trace_once_attached_ && !is_attach()) {
    PERFETTO_ELOG("--stop is supported only in combination with --attach");
    return 1;
  }

  if ((bugreport_ || clone_all_bugreport_traces_) &&
      (is_attach() || is_detach() || query_service_ || has_config_options ||
       background_wait_)) {
    PERFETTO_ELOG("--save-for-bugreport cannot take any other argument");
    return 1;
  }

  if (clone_tsid_ && !clone_name_.empty()) {
    PERFETTO_ELOG("--clone and --clone-by-name are mutually exclusive");
    return 1;
  }

  if (clone_for_bugreport_ && !is_clone()) {
    PERFETTO_ELOG("--clone-for-bugreport requires --clone or --clone-by-name");
    return 1;
  }

  // --save-for-bugreport is the equivalent of:
  // --clone kBugreportSessionId -o /data/misc/perfetto-traces/bugreport/...
  if (bugreport_ && trace_out_path_.empty()) {
    PERFETTO_LOG("Invoked perfetto with --save-for-bugreport");
    clone_tsid_ = kBugreportSessionId;
    clone_for_bugreport_ = true;
    trace_out_path_ = GetBugreportTracePath();
  }

  // Parse the trace config. It can be either:
  // 1) A proto-encoded file/stdin (-c ...).
  // 2) A proto-text file/stdin (-c ... --txt).
  // 3) A set of option arguments (-t 10s -s 10m).
  // The only cases in which a trace config is not expected is --attach.
  // For this we are just acting on already existing sessions.
  trace_config_.reset(new TraceConfig());

  bool parsed = false;
  bool cfg_could_be_txt = false;
  const bool will_trace_or_trigger =
      !is_attach() && !query_service_ && !clone_all_bugreport_traces_;
  if (!will_trace_or_trigger) {
    if ((!trace_config_raw.empty() || has_config_options)) {
      PERFETTO_ELOG("Cannot specify a trace config with this option");
      return 1;
    }
  } else if (has_config_options) {
    if (!trace_config_raw.empty()) {
      PERFETTO_ELOG(
          "Cannot specify both -c/--config and any of --time, --size, "
          "--buffer, --app, ATRACE_CAT, FTRACE_EVENT");
      return 1;
    }
    parsed = CreateConfigFromOptions(config_options, trace_config_.get());
  } else {
    if (trace_config_raw.empty() && !is_clone()) {
      PERFETTO_ELOG("The TraceConfig is empty");
      return 1;
    }
    PERFETTO_DLOG("Parsing TraceConfig, %zu bytes", trace_config_raw.size());
    if (parse_as_pbtxt) {
      parsed = ParseTraceConfigPbtxt(config_file_name, trace_config_raw,
                                     trace_config_.get());
    } else {
      parsed = trace_config_->ParseFromString(trace_config_raw);
      cfg_could_be_txt =
          !parsed && std::all_of(trace_config_raw.begin(),
                                 trace_config_raw.end(), [](char c) {
                                   // This is equiv to: isprint(c) || isspace(x)
                                   // but doesn't depend on and load the locale.
                                   return (c >= 32 && c <= 126) ||
                                          (c >= 9 && c <= 13);
                                 });
    }
  }

  if (parsed) {
    *trace_config_->mutable_statsd_metadata() = std::move(statsd_metadata);
    trace_config_raw.clear();
  } else if (will_trace_or_trigger && !is_clone()) {
    PERFETTO_ELOG("The trace config is invalid, bailing out.");
    if (cfg_could_be_txt) {
      PERFETTO_ELOG(
          "Looks like you are passing a textual config but I'm expecting a "
          "proto-encoded binary config.");
      PERFETTO_ELOG("Try adding --txt to the cmdline.");
    }
    return 1;
  }

  if (trace_config_->trace_uuid_lsb() == 0 &&
      trace_config_->trace_uuid_msb() == 0) {
    base::Uuid uuid = base::Uuidv4();
    if (trace_config_->statsd_metadata().triggering_subscription_id()) {
      uuid.set_lsb(
          trace_config_->statsd_metadata().triggering_subscription_id());
    }
    uuid_ = uuid.ToString();
    trace_config_->set_trace_uuid_msb(uuid.msb());
    trace_config_->set_trace_uuid_lsb(uuid.lsb());
  } else {
    base::Uuid uuid(trace_config_->trace_uuid_lsb(),
                    trace_config_->trace_uuid_msb());
    uuid_ = uuid.ToString();
  }

  const auto& delay = trace_config_->cmd_trace_start_delay();
  if (delay.has_max_delay_ms() != delay.has_min_delay_ms()) {
    PERFETTO_ELOG("cmd_trace_start_delay field is only partially specified.");
    return 1;
  }

  bool has_incidentd_package =
      !trace_config_->incident_report_config().destination_package().empty();
  if (has_incidentd_package && !upload_flag_) {
    PERFETTO_ELOG(
        "Unexpected IncidentReportConfig without --dropbox / --upload.");
    return 1;
  }

  bool has_android_reporter_package = !trace_config_->android_report_config()
                                           .reporter_service_package()
                                           .empty();
  if (has_android_reporter_package && !upload_flag_) {
    PERFETTO_ELOG(
        "Unexpected AndroidReportConfig without --dropbox / --upload.");
    return 1;
  }

  if (has_incidentd_package && has_android_reporter_package) {
    PERFETTO_ELOG(
        "Only one of IncidentReportConfig and AndroidReportConfig "
        "allowed in the same config.");
    return 1;
  }

  // If the upload flag is set, we can only be doing one of three things:
  // 1. Reporting to either incidentd or Android framework.
  // 2. Skipping incidentd/Android report because it was explicitly
  //    specified in the config.
  // 3. Activating triggers.
  bool incidentd_valid =
      has_incidentd_package ||
      trace_config_->incident_report_config().skip_incidentd();
  bool android_report_valid =
      has_android_reporter_package ||
      trace_config_->android_report_config().skip_report();
  bool has_triggers = !trace_config_->activate_triggers().empty();
  if (upload_flag_ && !incidentd_valid && !android_report_valid &&
      !has_triggers) {
    PERFETTO_ELOG(
        "One of IncidentReportConfig, AndroidReportConfig or activate_triggers "
        "must be specified with --dropbox / --upload.");
    return 1;
  }

  // Only save to incidentd if:
  // 1) |destination_package| is set
  // 2) |skip_incidentd| is absent or false.
  // 3) we are not simply activating triggers.
  save_to_incidentd_ =
      has_incidentd_package &&
      !trace_config_->incident_report_config().skip_incidentd() &&
      !has_triggers;

  // Only report to the Andorid framework if:
  // 1) |reporter_service_package| is set
  // 2) |skip_report| is absent or false.
  // 3) we are not simply activating triggers.
  report_to_android_framework_ =
      has_android_reporter_package &&
      !trace_config_->android_report_config().skip_report() && !has_triggers;

  // Respect the wishes of the config with respect to statsd logging or fall
  // back on the presence of the --upload flag if not set.
  switch (trace_config_->statsd_logging()) {
    case TraceConfig::STATSD_LOGGING_ENABLED:
      statsd_logging_ = true;
      break;
    case TraceConfig::STATSD_LOGGING_DISABLED:
      statsd_logging_ = false;
      break;
    case TraceConfig::STATSD_LOGGING_UNSPECIFIED:
      statsd_logging_ = upload_flag_;
      break;
  }
  trace_config_->set_statsd_logging(statsd_logging_
                                        ? TraceConfig::STATSD_LOGGING_ENABLED
                                        : TraceConfig::STATSD_LOGGING_DISABLED);

  // Set up the output file. Either --out or --upload are expected, with the
  // only exception of --attach. In this case the output file is passed when
  // detaching.
  if (!trace_out_path_.empty() && upload_flag_) {
    PERFETTO_ELOG(
        "Can't log to a file (--out) and incidentd (--upload) at the same "
        "time");
    return 1;
  }

  if (!trace_config_->output_path().empty()) {
    if (!trace_out_path_.empty() || upload_flag_) {
      PERFETTO_ELOG(
          "Can't pass --out or --upload if output_path is set in the "
          "trace config");
      return 1;
    }
    if (base::FileExists(trace_config_->output_path())) {
      PERFETTO_ELOG(
          "The output_path must not exist, the service cannot overwrite "
          "existing files for security reasons. Remove %s or use a different "
          "path.",
          trace_config_->output_path().c_str());
      return 1;
    }
  }

  // |activate_triggers| in the trace config is shorthand for trigger_perfetto.
  // In this case we don't intend to send any trace config to the service,
  // rather use that as a signal to the cmdline client to connect as a producer
  // and activate triggers.
  if (has_triggers) {
    for (const auto& trigger : trace_config_->activate_triggers()) {
      triggers_to_activate_.push_back(trigger);
    }
    trace_config_.reset(new TraceConfig());
  }

  bool open_out_file = true;
  if (!will_trace_or_trigger) {
    open_out_file = false;
    if (!trace_out_path_.empty() || upload_flag_) {
      PERFETTO_ELOG("Can't pass an --out file (or --upload) with this option");
      return 1;
    }
  } else if (!triggers_to_activate_.empty() ||
             (trace_config_->write_into_file() &&
              !trace_config_->output_path().empty())) {
    open_out_file = false;
  } else if (trace_out_path_.empty() && !upload_flag_) {
    PERFETTO_ELOG("Either --out or --upload is required");
    return 1;
  } else if (is_detach() && !trace_config_->write_into_file()) {
    // In detached mode we must pass the file descriptor to the service and
    // let that one write the trace. We cannot use the IPC readback code path
    // because the client process is about to exit soon after detaching.
    // We could support detach && !write_into_file, but that would make the
    // cmdline logic more complex. The feasible configurations are:
    // 1. Using write_into_file and passing the file path on the --detach call.
    // 2. Using pure ring-buffer mode, setting write_into_file = false and
    //    passing the output file path to the --attach call.
    // This is too complicated and harder to reason about, so we support only 1.
    // Traceur gets around this by always setting write_into_file and specifying
    // file_write_period_ms = 1week (which effectively means: write into the
    // file only at the end of the trace) to achieve ring buffer traces.
    PERFETTO_ELOG(
        "TraceConfig's write_into_file must be true when using --detach");
    return 1;
  }
  if (open_out_file) {
    if (!OpenOutputFile())
      return 1;
    if (!trace_config_->write_into_file())
      packet_writer_.emplace(trace_out_stream_.get());
  }

  bool will_trace_indefinitely =
      trace_config_->duration_ms() == 0 &&
      trace_config_->trigger_config().trigger_timeout_ms() == 0;
  if (will_trace_indefinitely && save_to_incidentd_ && !ignore_guardrails_) {
    PERFETTO_ELOG("Can't trace indefinitely when tracing to Incidentd.");
    return 1;
  }

  if (will_trace_indefinitely && report_to_android_framework_ &&
      !ignore_guardrails_) {
    PERFETTO_ELOG(
        "Can't trace indefinitely when reporting to Android framework.");
    return 1;
  }

  if (background_) {
    if (background_wait_) {
#if !PERFETTO_BUILDFLAG(PERFETTO_OS_WIN)
      background_wait_pipe_ = base::Pipe::Create(base::Pipe::kRdNonBlock);
#endif
    }

    PERFETTO_CHECK(snapshot_threads_.empty());  // No threads before Daemonize.
    base::Daemonize([this]() -> int {
      background_wait_pipe_.wr.reset();

      if (background_wait_) {
        return WaitOnBgProcessPipe();
      }

      return 0;
    });
    background_wait_pipe_.rd.reset();
  }

  return std::nullopt;  // Continues in ConnectToServiceRunAndMaybeNotify()
                        // below.
}

void PerfettoCmd::NotifyBgProcessPipe(BgProcessStatus status) {
#if !PERFETTO_BUILDFLAG(PERFETTO_OS_WIN)
  if (!background_wait_pipe_.wr) {
    return;
  }
  static_assert(sizeof status == 1, "Enum bigger than one byte");
  PERFETTO_EINTR(write(background_wait_pipe_.wr.get(), &status, 1));
  background_wait_pipe_.wr.reset();
#else   // PERFETTO_BUILDFLAG(PERFETTO_OS_WIN)
  base::ignore_result(status);
#endif  //! PERFETTO_BUILDFLAG(PERFETTO_OS_WIN)
}

PerfettoCmd::BgProcessStatus PerfettoCmd::WaitOnBgProcessPipe() {
#if !PERFETTO_BUILDFLAG(PERFETTO_OS_WIN)
  base::ScopedPlatformHandle fd = std::move(background_wait_pipe_.rd);
  PERFETTO_CHECK(fd);

  BgProcessStatus msg;
  static_assert(sizeof msg == 1, "Enum bigger than one byte");
  std::array<pollfd, 1> pollfds = {pollfd{fd.get(), POLLIN, 0}};

  int ret = PERFETTO_EINTR(poll(&pollfds[0], pollfds.size(), 30000 /*ms*/));
  PERFETTO_CHECK(ret >= 0);
  if (ret == 0) {
    fprintf(stderr, "Timeout waiting for all data sources to start\n");
    return kBackgroundTimeout;
  }
  ssize_t read_ret = PERFETTO_EINTR(read(fd.get(), &msg, 1));
  PERFETTO_CHECK(read_ret >= 0);
  if (read_ret == 0) {
    fprintf(stderr, "Background process didn't report anything\n");
    return kBackgroundOtherError;
  }

  if (msg != kBackgroundOk) {
    fprintf(stderr, "Background process failed, BgProcessStatus=%d\n",
            static_cast<int>(msg));
    return msg;
  }
#endif  //! PERFETTO_BUILDFLAG(PERFETTO_OS_WIN)

  return kBackgroundOk;
}

int PerfettoCmd::ConnectToServiceRunAndMaybeNotify() {
  int exit_code = ConnectToServiceAndRun();

  NotifyBgProcessPipe(exit_code == 0 ? kBackgroundOk : kBackgroundOtherError);

  return exit_code;
}

int PerfettoCmd::ConnectToServiceAndRun() {
  // If we are just activating triggers then we don't need to rate limit,
  // connect as a consumer or run the trace. So bail out after processing all
  // the options.
  if (!triggers_to_activate_.empty()) {
    bool finished_with_success = false;
    auto weak_this = weak_factory_.GetWeakPtr();
    TriggerProducer producer(
        &task_runner_,
        [weak_this, &finished_with_success](bool success) {
          if (!weak_this)
            return;
          finished_with_success = success;
          weak_this->task_runner_.Quit();
        },
        &triggers_to_activate_);
    task_runner_.Run();
    return finished_with_success ? 0 : 1;
  }  // if (triggers_to_activate_)

  if (query_service_) {
    consumer_endpoint_ =
        ConsumerIPCClient::Connect(GetConsumerSocket(), this, &task_runner_);
    task_runner_.Run();
    return 1;  // We can legitimately get here if the service disconnects.
  }

  if (!trace_config_->unique_session_name().empty())
    base::MaybeSetThreadName("p-" + trace_config_->unique_session_name());

  expected_duration_ms_ = trace_config_->duration_ms();
  if (!expected_duration_ms_) {
    uint32_t timeout_ms = trace_config_->trigger_config().trigger_timeout_ms();
    uint32_t max_stop_delay_ms = 0;
    for (const auto& trigger : trace_config_->trigger_config().triggers()) {
      max_stop_delay_ms = std::max(max_stop_delay_ms, trigger.stop_delay_ms());
    }
    expected_duration_ms_ = timeout_ms + max_stop_delay_ms;
  }

  const auto& delay = trace_config_->cmd_trace_start_delay();
  if (delay.has_min_delay_ms()) {
    PERFETTO_DCHECK(delay.has_max_delay_ms());
    std::random_device r;
    std::minstd_rand minstd(r());
    std::uniform_int_distribution<uint32_t> dist(delay.min_delay_ms(),
                                                 delay.max_delay_ms());
    std::this_thread::sleep_for(std::chrono::milliseconds(dist(minstd)));
  }

  if (is_clone()) {
    if (!snapshot_trigger_info_.has_value()) {
      LogUploadEvent(PerfettoStatsdAtom::kCmdCloneTraceBegin);
    } else {
      LogUploadEvent(PerfettoStatsdAtom::kCmdCloneTriggerTraceBegin,
                     snapshot_trigger_info_->trigger_name);
    }
  } else if (trace_config_->trigger_config().trigger_timeout_ms() == 0) {
    LogUploadEvent(PerfettoStatsdAtom::kTraceBegin);
  } else {
    LogUploadEvent(PerfettoStatsdAtom::kBackgroundTraceBegin);
  }

#if PERFETTO_BUILDFLAG(PERFETTO_OS_ANDROID)
  if (!background_ && !is_detach() && !upload_flag_ &&
      triggers_to_activate_.empty() && !isatty(STDIN_FILENO) &&
      !isatty(STDERR_FILENO) && getenv("TERM")) {
    fprintf(stderr,
            "Warning: No PTY. CTRL+C won't gracefully stop the trace. If you "
            "are running perfetto via adb shell, use the -tt arg (adb shell "
            "-t perfetto ...) or consider using the helper script "
            "tools/record_android_trace from the Perfetto repository.\n\n");
  }
#endif

  consumer_endpoint_ =
      ConsumerIPCClient::Connect(GetConsumerSocket(), this, &task_runner_);
  SetupCtrlCSignalHandler();
  task_runner_.Run();

  return tracing_succeeded_ ? 0 : 1;
}

void PerfettoCmd::OnConnect() {
  connected_ = true;
  LogUploadEvent(PerfettoStatsdAtom::kOnConnect);

  uint32_t events_mask = 0;
  if (GetTriggerMode(*trace_config_) ==
      TraceConfig::TriggerConfig::CLONE_SNAPSHOT) {
    events_mask |= ObservableEvents::TYPE_CLONE_TRIGGER_HIT;
  }
  if (background_wait_) {
    events_mask |= ObservableEvents::TYPE_ALL_DATA_SOURCES_STARTED;
  }
  if (events_mask) {
    consumer_endpoint_->ObserveEvents(events_mask);
  }

  if (query_service_) {
    consumer_endpoint_->QueryServiceState(
        {}, [this](bool success, const TracingServiceState& svc_state) {
          PrintServiceState(success, svc_state);
          fflush(stdout);
          exit(success ? 0 : 1);
        });
    return;
  }

  if (clone_all_bugreport_traces_) {
    ConsumerEndpoint::QueryServiceStateArgs args;
    // Reduces the size of the IPC reply skipping data sources and producers.
    args.sessions_only = true;
    auto weak_this = weak_factory_.GetWeakPtr();
    consumer_endpoint_->QueryServiceState(
        args, [weak_this](bool success, const TracingServiceState& svc_state) {
          if (weak_this)
            weak_this->CloneAllBugreportTraces(success, svc_state);
        });
    return;
  }

  if (is_attach()) {
    consumer_endpoint_->Attach(attach_key_);
    return;
  }

  if (is_clone()) {
    task_runner_.PostDelayedTask(std::bind(&PerfettoCmd::OnTimeout, this),
                                 kCloneTimeoutMs);
    ConsumerEndpoint::CloneSessionArgs args;
    args.skip_trace_filter = clone_for_bugreport_;
    args.for_bugreport = clone_for_bugreport_;
    if (clone_tsid_.has_value()) {
      args.tsid = *clone_tsid_;
    } else if (!clone_name_.empty()) {
      args.unique_session_name = clone_name_;
    }
    if (snapshot_trigger_info_.has_value()) {
      args.clone_trigger_name = snapshot_trigger_info_->trigger_name;
      args.clone_trigger_producer_name = snapshot_trigger_info_->producer_name;
      args.clone_trigger_trusted_producer_uid =
          snapshot_trigger_info_->producer_uid;
      args.clone_trigger_boot_time_ns = snapshot_trigger_info_->boot_time_ns;
    }
    consumer_endpoint_->CloneSession(std::move(args));
    return;
  }

  if (expected_duration_ms_) {
    PERFETTO_LOG("Connected to the Perfetto traced service, TTL: %ds",
                 (expected_duration_ms_ + 999) / 1000);
  } else {
    PERFETTO_LOG("Connected to the Perfetto traced service, starting tracing");
  }

  PERFETTO_DCHECK(trace_config_);
  trace_config_->set_enable_extra_guardrails(
      (save_to_incidentd_ || report_to_android_framework_) &&
      !ignore_guardrails_);

  // Set the statsd logging flag if we're uploading

  base::ScopedFile optional_fd;
  if (trace_config_->write_into_file() && trace_config_->output_path().empty())
    optional_fd.reset(dup(fileno(*trace_out_stream_)));

  consumer_endpoint_->EnableTracing(*trace_config_, std::move(optional_fd));

  if (is_detach()) {
    consumer_endpoint_->Detach(detach_key_);  // Will invoke OnDetach() soon.
    return;
  }

  // Failsafe mechanism to avoid waiting indefinitely if the service hangs.
  // Note: when using prefer_suspend_clock_for_duration the actual duration
  // might be < expected_duration_ms_ measured in in wall time. But this is fine
  // because the resulting timeout will be conservative (it will be accut
  // if the device never suspends, and will be more lax if it does).
  if (expected_duration_ms_) {
    uint32_t trace_timeout = expected_duration_ms_ + 60000 +
                             trace_config_->flush_timeout_ms() +
                             trace_config_->data_source_stop_timeout_ms();
    task_runner_.PostDelayedTask(std::bind(&PerfettoCmd::OnTimeout, this),
                                 trace_timeout);
  }
}

void PerfettoCmd::OnDisconnect() {
  if (connected_) {
    PERFETTO_LOG("Disconnected from the traced service");
  } else {
#if PERFETTO_BUILDFLAG(PERFETTO_OS_ANDROID)
    static const char kDocUrl[] =
        "https://perfetto.dev/docs/quickstart/android-tracing";
#else
    static const char kDocUrl[] =
        "https://perfetto.dev/docs/quickstart/linux-tracing";
#endif
    PERFETTO_LOG(
        "Could not connect to the traced socket %s. Ensure traced is "
        "running or use tracebox. See %s.",
        GetConsumerSocket(), kDocUrl);
  }

  connected_ = false;
  task_runner_.Quit();
}

void PerfettoCmd::OnTimeout() {
  PERFETTO_ELOG("Timed out while waiting for trace from the service, aborting");
  LogUploadEvent(PerfettoStatsdAtom::kOnTimeout);
  task_runner_.Quit();
}

void PerfettoCmd::CheckTraceDataTimeout() {
  if (trace_data_timeout_armed_) {
    PERFETTO_ELOG("Timed out while waiting for OnTraceData, aborting");
    FinalizeTraceAndExit();
  }
  trace_data_timeout_armed_ = true;
  task_runner_.PostDelayedTask(
      std::bind(&PerfettoCmd::CheckTraceDataTimeout, this),
      kOnTraceDataTimeoutMs);
}

void PerfettoCmd::OnTraceData(std::vector<TracePacket> packets, bool has_more) {
  trace_data_timeout_armed_ = false;

  PERFETTO_CHECK(packet_writer_.has_value());
  if (!packet_writer_->WritePackets(packets)) {
    PERFETTO_ELOG("Failed to write packets");
    FinalizeTraceAndExit();
  }

  if (!has_more)
    FinalizeTraceAndExit();  // Reached end of trace.
}

void PerfettoCmd::OnTracingDisabled(const std::string& error) {
  ReadbackTraceDataAndQuit(error);
}

void PerfettoCmd::ReadbackTraceDataAndQuit(const std::string& error) {
  if (!error.empty()) {
    // Some of these errors (e.g. unique session name already exists) are soft
    // errors and likely to happen in nominal condition. As such they shouldn't
    // be marked as "E" in the event log. Hence why LOG and not ELOG here.
    PERFETTO_LOG("Service error: %s", error.c_str());

    // In case of errors don't leave a partial file around. This happens
    // frequently in the case of --save-for-bugreport if there is no eligible
    // trace. See also b/279753347 .
    if (bytes_written_ == 0 && !trace_out_path_.empty() &&
        trace_out_path_ != "-") {
      remove(trace_out_path_.c_str());
    }

    // Even though there was a failure, we mark this as success for legacy
    // reasons: when guardrails used to exist in perfetto_cmd, this codepath
    // would still cause guardrails to be written and the exit code to be 0.
    //
    // We want to preserve that semantic and the easiest way to do that would
    // be to set |tracing_succeeded_| to true.
    tracing_succeeded_ = true;
    task_runner_.Quit();
    return;
  }

  // Make sure to only log this atom if |error| is empty; traced
  // would have logged a terminal error atom corresponding to |error|
  // and we don't want to log anything after that.
  LogUploadEvent(PerfettoStatsdAtom::kOnTracingDisabled);

  if (trace_config_->write_into_file()) {
    // If write_into_file == true, at this point the passed file contains
    // already all the packets.
    return FinalizeTraceAndExit();
  }

  trace_data_timeout_armed_ = false;
  CheckTraceDataTimeout();

  // This will cause a bunch of OnTraceData callbacks. The last one will
  // save the file and exit.
  consumer_endpoint_->ReadBuffers();
}

void PerfettoCmd::FinalizeTraceAndExit() {
  LogUploadEvent(PerfettoStatsdAtom::kFinalizeTraceAndExit);
  packet_writer_.reset();

  if (trace_out_stream_) {
    fseek(*trace_out_stream_, 0, SEEK_END);
    off_t sz = ftell(*trace_out_stream_);
    if (sz > 0)
      bytes_written_ = static_cast<size_t>(sz);
  }

  if (save_to_incidentd_) {
#if PERFETTO_BUILDFLAG(PERFETTO_OS_ANDROID)
    SaveTraceIntoIncidentOrCrash();
#endif
  } else if (report_to_android_framework_) {
#if PERFETTO_BUILDFLAG(PERFETTO_OS_ANDROID)
    ReportTraceToAndroidFrameworkOrCrash();
#endif
  } else {
    trace_out_stream_.reset();
    if (trace_config_->write_into_file()) {
      // trace_out_path_ might be empty in the case of --attach.
      PERFETTO_LOG("Trace written into the output file");
    } else {
      PERFETTO_LOG("Wrote %" PRIu64 " bytes into %s", bytes_written_,
                   trace_out_path_ == "-" ? "stdout" : trace_out_path_.c_str());
    }
  }

  tracing_succeeded_ = true;
  task_runner_.Quit();
}

bool PerfettoCmd::OpenOutputFile() {
  base::ScopedFile fd;
  if (trace_out_path_.empty()) {
#if PERFETTO_BUILDFLAG(PERFETTO_OS_ANDROID)
    fd = CreateUnlinkedTmpFile();
#endif
  } else if (trace_out_path_ == "-") {
    fd.reset(dup(fileno(stdout)));
  } else {
    fd = base::OpenFile(trace_out_path_, O_RDWR | O_CREAT | O_TRUNC, 0600);
  }
  if (!fd) {
    PERFETTO_PLOG(
        "Failed to open %s. If you get permission denied in "
        "/data/misc/perfetto-traces, the file might have been "
        "created by another user, try deleting it first.",
        trace_out_path_.c_str());
    return false;
  }
  trace_out_stream_.reset(fdopen(fd.release(), "wb"));
  PERFETTO_CHECK(trace_out_stream_);
  return true;
}

void PerfettoCmd::SetupCtrlCSignalHandler() {
  // Only the main thread instance should handle CTRL+C.
  if (g_perfetto_cmd != this)
    return;
  ctrl_c_handler_installed_ = true;
  base::InstallCtrlCHandler([] {
    if (PerfettoCmd* main_thread = g_perfetto_cmd.load())
      main_thread->SignalCtrlC();
  });
  auto weak_this = weak_factory_.GetWeakPtr();
  task_runner_.AddFileDescriptorWatch(ctrl_c_evt_.fd(), [weak_this] {
    if (!weak_this)
      return;
    PERFETTO_LOG("SIGINT/SIGTERM received: disabling tracing.");
    weak_this->ctrl_c_evt_.Clear();
    weak_this->consumer_endpoint_->Flush(
        0,
        [weak_this](bool flush_success) {
          if (!weak_this)
            return;
          if (!flush_success)
            PERFETTO_ELOG("Final flush unsuccessful.");
          weak_this->consumer_endpoint_->DisableTracing();
        },
        FlushFlags(FlushFlags::Initiator::kPerfettoCmd,
                   FlushFlags::Reason::kTraceStop));
  });
}

void PerfettoCmd::OnDetach(bool success) {
  if (!success) {
    PERFETTO_ELOG("Session detach failed");
    exit(1);
  }
  exit(0);
}

void PerfettoCmd::OnAttach(bool success, const TraceConfig& trace_config) {
  if (!success) {
    if (!redetach_once_attached_) {
      // Print an error message if attach fails, with the exception of the
      // --is_detached case, where we want to silently return.
      PERFETTO_ELOG("Session re-attach failed. Check service logs for details");
    }
    // Keep this exit code distinguishable from the general error code so
    // --is_detached can tell the difference between a general error and the
    // not-detached case.
    exit(2);
  }

  if (redetach_once_attached_) {
    consumer_endpoint_->Detach(attach_key_);  // Will invoke OnDetach() soon.
    return;
  }

  trace_config_.reset(new TraceConfig(trace_config));
  PERFETTO_DCHECK(trace_config_->write_into_file());

  if (stop_trace_once_attached_) {
    auto weak_this = weak_factory_.GetWeakPtr();
    consumer_endpoint_->Flush(
        0,
        [weak_this](bool flush_success) {
          if (!weak_this)
            return;
          if (!flush_success)
            PERFETTO_ELOG("Final flush unsuccessful.");
          weak_this->consumer_endpoint_->DisableTracing();
        },
        FlushFlags(FlushFlags::Initiator::kPerfettoCmd,
                   FlushFlags::Reason::kTraceStop));
  }
}

void PerfettoCmd::OnTraceStats(bool /*success*/,
                               const TraceStats& /*trace_config*/) {
  // TODO(eseckler): Support GetTraceStats().
}

void PerfettoCmd::OnSessionCloned(const OnSessionClonedArgs& args) {
  PERFETTO_DLOG("Cloned tracing session %" PRIu64 ", name=\"%s\", success=%d",
                clone_tsid_.value_or(0), clone_name_.c_str(), args.success);
  std::string full_error;
  if (!args.success) {
    std::string name;
    if (clone_tsid_.has_value()) {
      name = std::to_string(*clone_tsid_);
    } else {
      name = "\"" + clone_name_ + "\"";
    }
    full_error = "Failed to clone tracing session " + name + ": " + args.error;
  }

  // This is used with --save-all-for-bugreport, to pause all cloning threads
  // so that they first issue the clone and then proceed only after the service
  // has seen all the clone requests.
  if (on_session_cloned_) {
    std::function<void()> on_session_cloned(nullptr);
    std::swap(on_session_cloned, on_session_cloned_);
    on_session_cloned();
  }

  // Kick off the readback and file finalization (as if we started tracing and
  // reached the duration_ms timeout).
  uuid_ = args.uuid.ToString();

  // Log the new UUID with the clone tag.
  if (!snapshot_trigger_info_.has_value()) {
    LogUploadEvent(PerfettoStatsdAtom::kCmdOnSessionClone);
  } else {
    LogUploadEvent(PerfettoStatsdAtom::kCmdOnTriggerSessionClone,
                   snapshot_trigger_info_->trigger_name);
  }
  ReadbackTraceDataAndQuit(full_error);
}

void PerfettoCmd::PrintServiceState(bool success,
                                    const TracingServiceState& svc_state) {
  if (!success) {
    PERFETTO_ELOG("Failed to query the service state");
    return;
  }

  if (query_service_output_raw_) {
    std::string str = svc_state.SerializeAsString();
    fwrite(str.data(), 1, str.size(), stdout);
    return;
  }

  printf(
      "\x1b[31mNot meant for machine consumption. Use --query-raw for "
      "scripts.\x1b[0m\n\n");
  printf(
      "Service: %s\n"
      "Tracing sessions: %d (started: %d)\n",
      svc_state.tracing_service_version().c_str(), svc_state.num_sessions(),
      svc_state.num_sessions_started());

  printf(R"(

PRODUCER PROCESSES CONNECTED:

ID     PID      UID      FLAGS  NAME                                       SDK
==     ===      ===      =====  ====                                       ===
)");
  for (const auto& producer : svc_state.producers()) {
    base::StackString<8> status("%s", producer.frozen() ? "F" : "");
    printf("%-6d %-8d %-8d %-6s %-42s %s\n", producer.id(), producer.pid(),
           producer.uid(), status.c_str(), producer.name().c_str(),
           producer.sdk_version().c_str());
  }

  printf(R"(

DATA SOURCES REGISTERED:

NAME                                     PRODUCER                     DETAILS
===                                      ========                     ========
)");
  for (const auto& ds : svc_state.data_sources()) {
    char producer_id_and_name[128]{};
    const int ds_producer_id = ds.producer_id();
    for (const auto& producer : svc_state.producers()) {
      if (producer.id() == ds_producer_id) {
        base::SprintfTrunc(producer_id_and_name, sizeof(producer_id_and_name),
                           "%s (%d)", producer.name().c_str(), ds_producer_id);
        break;
      }
    }

    printf("%-40s %-28s ", ds.ds_descriptor().name().c_str(),
           producer_id_and_name);
    // Print the category names for clients using the track event SDK.
    std::string cats;
    if (!ds.ds_descriptor().track_event_descriptor_raw().empty()) {
      const std::string& raw = ds.ds_descriptor().track_event_descriptor_raw();
      protos::gen::TrackEventDescriptor desc;
      if (desc.ParseFromArray(raw.data(), raw.size())) {
        for (const auto& cat : desc.available_categories()) {
          cats.append(cats.empty() ? "" : ",");
          cats.append(cat.name());
        }
      }
    } else if (!ds.ds_descriptor().ftrace_descriptor_raw().empty()) {
      const std::string& raw = ds.ds_descriptor().ftrace_descriptor_raw();
      protos::gen::FtraceDescriptor desc;
      if (desc.ParseFromArray(raw.data(), raw.size())) {
        for (const auto& cat : desc.atrace_categories()) {
          cats.append(cats.empty() ? "" : ",");
          cats.append(cat.name());
        }
      }
    }
    const size_t kCatsShortLen = 40;
    if (!query_service_long_ && cats.length() > kCatsShortLen) {
      cats = cats.substr(0, kCatsShortLen);
      cats.append("... (use --long to expand)");
    }
    printf("%s\n", cats.c_str());
  }  // for data_sources()

  if (svc_state.supports_tracing_sessions()) {
    printf(R"(

TRACING SESSIONS:

ID      UID     STATE      BUF (#) KB   DUR (s)   #DS  STARTED  NAME
===     ===     =====      ==========   =======   ===  =======  ====
)");
    for (const auto& sess : svc_state.tracing_sessions()) {
      uint32_t buf_tot_kb = 0;
      for (uint32_t kb : sess.buffer_size_kb())
        buf_tot_kb += kb;
      int sec =
          static_cast<int>((sess.start_realtime_ns() / 1000000000) % 86400);
      int h = sec / 3600;
      int m = (sec - (h * 3600)) / 60;
      int s = (sec - h * 3600 - m * 60);
      printf("%-7" PRIu64 " %-7d %-10s (%d) %-8u %-9u %-4u %02d:%02d:%02d %s\n",
             sess.id(), sess.consumer_uid(), sess.state().c_str(),
             sess.buffer_size_kb_size(), buf_tot_kb, sess.duration_ms() / 1000,
             sess.num_data_sources(), h, m, s,
             sess.unique_session_name().c_str());
    }  // for tracing_sessions()

    int sessions_listed = static_cast<int>(svc_state.tracing_sessions().size());
    if (sessions_listed != svc_state.num_sessions() &&
        base::GetCurrentUserId() != 0) {
      printf(
          "\n"
          "NOTE: Some tracing sessions are not reported in the list above.\n"
          "This is likely because they are owned by a different UID.\n"
          "If you want to list all session, run again this command as root.\n");
    }
  }  // if (supports_tracing_sessions)
}

void PerfettoCmd::OnObservableEvents(
    const ObservableEvents& observable_events) {
  if (observable_events.all_data_sources_started()) {
    NotifyBgProcessPipe(kBackgroundOk);
  }
  if (observable_events.has_clone_trigger_hit()) {
    int64_t tsid = observable_events.clone_trigger_hit().tracing_session_id();
    SnapshotTriggerInfo trigger = {
        observable_events.clone_trigger_hit().boot_time_ns(),
        observable_events.clone_trigger_hit().trigger_name(),
        observable_events.clone_trigger_hit().producer_name(),
        static_cast<uid_t>(
            observable_events.clone_trigger_hit().producer_uid())};
    OnCloneSnapshotTriggerReceived(static_cast<TracingSessionID>(tsid),
                                   trigger);
  }
}

void PerfettoCmd::OnCloneSnapshotTriggerReceived(
    TracingSessionID tsid,
    const SnapshotTriggerInfo& trigger) {
  std::string cmdline;
  cmdline.reserve(128);
  ArgsAppend(&cmdline, "perfetto");
  ArgsAppend(&cmdline, "--config");
  ArgsAppend(&cmdline,
             ":mem");  // Use the copied config from `snapshot_config_`.
  ArgsAppend(&cmdline, "--clone");
  ArgsAppend(&cmdline, std::to_string(tsid));
  if (upload_flag_) {
    ArgsAppend(&cmdline, "--upload");
  } else if (!trace_out_path_.empty()) {
    ArgsAppend(&cmdline, "--out");
    ArgsAppend(&cmdline,
               trace_out_path_ + "." + std::to_string(snapshot_count_++));
  } else {
    PERFETTO_FATAL("Cannot use CLONE_SNAPSHOT with the current cmdline args");
  }
  CloneSessionOnThread(tsid, cmdline, kSingleExtraThread, trigger, nullptr);
}

void PerfettoCmd::CloneSessionOnThread(
    TracingSessionID tsid,
    const std::string& cmdline,
    CloneThreadMode thread_mode,
    const std::optional<SnapshotTriggerInfo>& trigger,
    std::function<void()> on_clone_callback) {
  PERFETTO_DLOG("Creating snapshot for tracing session %" PRIu64, tsid);

  // Only the main thread instance should be handling snapshots.
  // We should never end up in a state where each secondary PerfettoCmd
  // instance handles other snapshots and creates other threads.
  PERFETTO_CHECK(g_perfetto_cmd == this);

  if (snapshot_threads_.empty() || thread_mode == kNewThreadPerRequest) {
    // The destructor of the main-thread's PerfettoCmdMain will destroy and
    // join the threads that we are crating here.
    snapshot_threads_.emplace_back(
        base::ThreadTaskRunner::CreateAndStart("snapshot"));
  }

  // We need to pass a copy of the trace config to the new PerfettoCmd instance
  // because the trace config defines a bunch of properties that are used by the
  // cmdline client (reporter API package, guardrails, etc).
  std::string trace_config_copy = trace_config_->SerializeAsString();

  snapshot_threads_.back().PostTask(
      [tsid, cmdline, trace_config_copy, trigger, on_clone_callback] {
        int argc = 0;
        char* argv[32];
        // `splitter` needs to live on the stack for the whole scope as it owns
        // the underlying string storage that gets std::moved to PerfettoCmd.
        base::StringSplitter splitter(std::move(cmdline), '\0');
        while (splitter.Next()) {
          argv[argc++] = splitter.cur_token();
          PERFETTO_CHECK(static_cast<size_t>(argc) < base::ArraySize(argv));
        }
        perfetto::PerfettoCmd cmd;
        cmd.snapshot_config_ = std::move(trace_config_copy);
        cmd.snapshot_trigger_info_ = trigger;
        cmd.on_session_cloned_ = on_clone_callback;
        auto cmdline_res = cmd.ParseCmdlineAndMaybeDaemonize(argc, argv);
        PERFETTO_CHECK(!cmdline_res.has_value());  // No daemonization expected.
        int res = cmd.ConnectToServiceRunAndMaybeNotify();
        if (res)
          PERFETTO_ELOG("Cloning session %" PRIu64 " failed (%d)", tsid, res);
      });
}

void PerfettoCmd::CloneAllBugreportTraces(
    bool success,
    const TracingServiceState& service_state) {
  if (!success)
    PERFETTO_FATAL("Failed to list active tracing sessions");

  struct SessionToClone {
    int32_t bugreport_score;
    TracingSessionID tsid;
    std::string fname;  // Before deduping logic.
    bool operator<(const SessionToClone& other) const {
      return bugreport_score > other.bugreport_score;  // High score first.
    }
  };
  std::vector<SessionToClone> sessions;
  for (const auto& session : service_state.tracing_sessions()) {
    if (session.bugreport_score() <= 0 || !session.is_started())
      continue;
    std::string fname;
    if (!session.bugreport_filename().empty()) {
      fname = session.bugreport_filename();
    } else {
      fname = "systrace.pftrace";
    }
    sessions.emplace_back(
        SessionToClone{session.bugreport_score(), session.id(), fname});
  }  // for(session)

  if (sessions.empty()) {
    PERFETTO_LOG("No tracing sessions eligible for bugreport were found.");
    exit(0);
  }

  // First clone all sessions, synchronize, then read them back into files.
  // The `sync_fn` below will be executed on each thread inside OnSessionCloned
  // before proceeding with the readback. The logic below delays the readback
  // of all threads, until the service has acked all the clone requests.
  // The tracing service is single-threaded and data readbacks can take several
  // seconds. This is to minimize the global clone time and avoid that that
  // several sessions stomp on each other.
  const size_t num_sessions = sessions.size();

  // sync_point needs to be a shared_ptr to deal with the case where the main
  // thread runs in the middle of the Notify() and the Wait() and destroys the
  // WaitableEvent before some thread gets to the Wait().
  auto sync_point = std::make_shared<base::WaitableEvent>();

  std::function<void()> sync_fn = [sync_point, num_sessions] {
    sync_point->Notify();
    sync_point->Wait(num_sessions);
  };

  // Clone the sessions in order, starting with the highest score first.
  std::sort(sessions.begin(), sessions.end());
  for (auto it = sessions.begin(); it != sessions.end(); ++it) {
    std::string actual_fname = it->fname;
    size_t dupes = static_cast<size_t>(std::count_if(
        sessions.begin(), it,
        [&](const SessionToClone& o) { return o.fname == it->fname; }));
    if (dupes > 0) {
      std::string suffix = "_" + std::to_string(dupes);
      const size_t last_dot = actual_fname.find_last_of('.');
      if (last_dot != std::string::npos) {
        actual_fname.replace(last_dot, 1, suffix + ".");
      } else {
        actual_fname.append(suffix);
      }
    }  // if (dupes > 0)

    // Clone the tracing session into the bugreport file.
    std::string out_path = GetBugreportTraceDir() + "/" + actual_fname;
    remove(out_path.c_str());
    PERFETTO_LOG("Cloning tracing session %" PRIu64 " with score %d into %s",
                 it->tsid, it->bugreport_score, out_path.c_str());
    std::string cmdline;
    cmdline.reserve(128);
    ArgsAppend(&cmdline, "perfetto");
    ArgsAppend(&cmdline, "--clone");
    ArgsAppend(&cmdline, std::to_string(it->tsid));
    ArgsAppend(&cmdline, "--clone-for-bugreport");
    ArgsAppend(&cmdline, "--out");
    ArgsAppend(&cmdline, out_path);
    CloneSessionOnThread(it->tsid, cmdline, kNewThreadPerRequest, std::nullopt,
                         sync_fn);
  }  // for(sessions)

  PERFETTO_DLOG("Issuing %zu CloneSession requests", num_sessions);
  sync_point->Wait(num_sessions);
  PERFETTO_DLOG("All %zu sessions have acked the clone request", num_sessions);

  // After all sessions are done, quit.
  // Note that there is no risk that thd.PostTask() will interleave with the
  // sequence of tasks that PerfettoCmd involves, there is no race here.
  // There are two TaskRunners here, nested into each other:
  // 1) The "outer" ThreadTaskRunner, created by `thd`. This will see only one
  //    task ever, which is "run perfetto_cmd until completion".
  // 2) Internally PerfettoCmd creates its own UnixTaskRunner, which creates
  //    a nested TaskRunner that takes control of the execution. This returns
  //    only once TaskRunner::Quit() is called, in its epilogue.
  auto done_count = std::make_shared<std::atomic<size_t>>(num_sessions);
  for (auto& thd : snapshot_threads_) {
    thd.PostTask([done_count] {
      if (done_count->fetch_sub(1) == 1) {
        PERFETTO_DLOG("All sessions cloned. quitting");
        exit(0);
      }
    });
  }
}

void PerfettoCmd::LogUploadEvent(PerfettoStatsdAtom atom) {
  if (!statsd_logging_)
    return;
  base::Uuid uuid(uuid_);
  android_stats::MaybeLogUploadEvent(atom, uuid.lsb(), uuid.msb());
}

void PerfettoCmd::LogUploadEvent(PerfettoStatsdAtom atom,
                                 const std::string& trigger_name) {
  if (!statsd_logging_)
    return;
  base::Uuid uuid(uuid_);
  android_stats::MaybeLogUploadEvent(atom, uuid.lsb(), uuid.msb(),
                                     trigger_name);
}

void PerfettoCmd::LogTriggerEvents(
    PerfettoTriggerAtom atom,
    const std::vector<std::string>& trigger_names) {
  if (!statsd_logging_)
    return;
  android_stats::MaybeLogTriggerEvents(atom, trigger_names);
}

int PERFETTO_EXPORT_ENTRYPOINT PerfettoCmdMain(int argc, char** argv) {
  perfetto::PerfettoCmd cmd;
  auto opt_res = cmd.ParseCmdlineAndMaybeDaemonize(argc, argv);
  if (opt_res.has_value())
    return *opt_res;
  return cmd.ConnectToServiceRunAndMaybeNotify();
}

}  // namespace perfetto