FunASR/runtime/websocket/bin/funasr-wss-client-2pass.cpp

/**
 * Copyright FunASR (https://github.com/alibaba-damo-academy/FunASR). All Rights
 * Reserved. MIT License  (https://opensource.org/licenses/MIT)
 */
/* 2022-2023 by zhaomingwork */

// client for websocket, support multiple threads
// ./funasr-wss-client  --server-ip <string>
//                     --port <string>
//                     --wav-path <string>
//                     [--thread-num <int>]
//                     [--is-ssl <int>]  [--]
//                     [--version] [-h]
// example:
// ./funasr-wss-client --server-ip 127.0.0.1 --port 10095 --wav-path test.wav
// --thread-num 1 --is-ssl 1

#define ASIO_STANDALONE 1
#include <glog/logging.h>
#include "portaudio.h" 

#include <atomic>
#include <fstream>
#include <iostream>
#include <sstream>
#include <thread>
#include <websocketpp/client.hpp>
#include <websocketpp/common/thread.hpp>
#include <websocketpp/config/asio_client.hpp>
#include "util.h"
#include "audio.h"
#include "nlohmann/json.hpp"
#include "tclap/CmdLine.h"
#include "microphone.h"

/**
 * Define a semi-cross platform helper method that waits/sleeps for a bit.
 */
void WaitABit() {
#ifdef WIN32
  Sleep(500);
#else
  usleep(500);
#endif
}
std::atomic<int> wav_index(0);

typedef websocketpp::config::asio_client::message_type::ptr message_ptr;
typedef websocketpp::lib::shared_ptr<websocketpp::lib::asio::ssl::context>
    context_ptr;
using websocketpp::lib::bind;
using websocketpp::lib::placeholders::_1;
using websocketpp::lib::placeholders::_2;
context_ptr OnTlsInit(websocketpp::connection_hdl) {
  context_ptr ctx = websocketpp::lib::make_shared<asio::ssl::context>(
      asio::ssl::context::sslv23);

  try {
    ctx->set_options(
        asio::ssl::context::default_workarounds | asio::ssl::context::no_sslv2 |
        asio::ssl::context::no_sslv3 | asio::ssl::context::single_dh_use);

  } catch (std::exception& e) {
    LOG(ERROR) << e.what();
  }
  return ctx;
}

// template for tls or not config
template <typename T>
class WebsocketClient {
 public:
  // typedef websocketpp::client<T> client;
  // typedef websocketpp::client<websocketpp::config::asio_tls_client>
  // wss_client;
  typedef websocketpp::lib::lock_guard<websocketpp::lib::mutex> scoped_lock;

  WebsocketClient(int is_ssl) : m_open(false), m_done(false) {
    // set up access channels to only log interesting things
    m_client.clear_access_channels(websocketpp::log::alevel::all);
    m_client.set_access_channels(websocketpp::log::alevel::connect);
    m_client.set_access_channels(websocketpp::log::alevel::disconnect);
    m_client.set_access_channels(websocketpp::log::alevel::app);

    // Initialize the Asio transport policy
    m_client.init_asio();

    // Bind the handlers we are using
    using websocketpp::lib::bind;
    using websocketpp::lib::placeholders::_1;
    m_client.set_open_handler(bind(&WebsocketClient::on_open, this, _1));
    m_client.set_close_handler(bind(&WebsocketClient::on_close, this, _1));

    m_client.set_message_handler(
        [this](websocketpp::connection_hdl hdl, message_ptr msg) {
          on_message(hdl, msg);
        });

    m_client.set_fail_handler(bind(&WebsocketClient::on_fail, this, _1));
    m_client.clear_access_channels(websocketpp::log::alevel::all);
  }

  void on_message(websocketpp::connection_hdl hdl, message_ptr msg) {
    const std::string& payload = msg->get_payload();
    switch (msg->get_opcode()) {
      case websocketpp::frame::opcode::text:
        nlohmann::json jsonresult = nlohmann::json::parse(payload);
        LOG(INFO) << "Thread: " << this_thread::get_id()
                  << ",on_message = " << payload;

        if (jsonresult["is_final"] == true) {
          websocketpp::lib::error_code ec;
           
          m_client.close(hdl, websocketpp::close::status::going_away, "", ec);

          if (ec) {
            LOG(ERROR) << "Error closing connection " << ec.message();
          }
        }
    }
  }

  // This method will block until the connection is complete
  void run(const std::string& uri, const std::vector<string>& wav_list,
           const std::vector<string>& wav_ids, int audio_fs, std::string asr_mode,
           std::vector<int> chunk_size, const std::unordered_map<std::string, int>& hws_map,
           bool is_record=false, int use_itn=1) {
    // Create a new connection to the given URI
    websocketpp::lib::error_code ec;
    typename websocketpp::client<T>::connection_ptr con =
        m_client.get_connection(uri, ec);
    if (ec) {
      m_client.get_alog().write(websocketpp::log::alevel::app,
                                "Get Connection Error: " + ec.message());
      return;
    }
    // Grab a handle for this connection so we can talk to it in a thread
    // safe manor after the event loop starts.
    m_hdl = con->get_handle();

    // Queue the connection. No DNS queries or network connections will be
    // made until the io_service event loop is run.
    m_client.connect(con);

    // Create a thread to run the ASIO io_service event loop
    websocketpp::lib::thread asio_thread(&websocketpp::client<T>::run,
                                         &m_client);
    if(is_record){
      send_rec_data(asr_mode, chunk_size, hws_map, use_itn);
    }else{
      send_wav_data(wav_list[0], wav_ids[0], audio_fs, asr_mode, chunk_size, hws_map, use_itn);
    }

    WaitABit();

    asio_thread.join();
  }

  // The open handler will signal that we are ready to start sending data
  void on_open(websocketpp::connection_hdl) {
    m_client.get_alog().write(websocketpp::log::alevel::app,
                              "Connection opened, starting data!");

    scoped_lock guard(m_lock);
    m_open = true;
  }

  // The close handler will signal that we should stop sending data
  void on_close(websocketpp::connection_hdl) {
    m_client.get_alog().write(websocketpp::log::alevel::app,
                              "Connection closed, stopping data!");

    scoped_lock guard(m_lock);
    m_done = true;
  }

  // The fail handler will signal that we should stop sending data
  void on_fail(websocketpp::connection_hdl) {
    m_client.get_alog().write(websocketpp::log::alevel::app,
                              "Connection failed, stopping data!");

    scoped_lock guard(m_lock);
    m_done = true;
  }
  // send wav to server
  void send_wav_data(string wav_path, string wav_id, int audio_fs, std::string asr_mode,
                     std::vector<int> chunk_vector, const std::unordered_map<std::string, int>& hws_map,
                     int use_itn) {
    uint64_t count = 0;
    std::stringstream val;

    funasr::Audio audio(1);
    int32_t sampling_rate = audio_fs;
    std::string wav_format = "pcm";
    if (funasr::IsTargetFile(wav_path.c_str(), "pcm")) {
      if (!audio.LoadPcmwav(wav_path.c_str(), &sampling_rate, false)) return;
    } else {
      wav_format = "others";
      if (!audio.LoadOthers2Char(wav_path.c_str())) return;
    }

    float* buff;
    int len;
    int flag = 0;
    bool wait = false;
    while (1) {
      {
        scoped_lock guard(m_lock);
        // If the connection has been closed, stop generating data
        if (m_done) {
          break;
        }
        // If the connection hasn't been opened yet wait a bit and retry
        if (!m_open) {
          wait = true;
        } else {
          break;
        }
      }

      if (wait) {
        // LOG(INFO) << "wait.." << m_open;
        WaitABit();
        continue;
      }
    }
    websocketpp::lib::error_code ec;

    nlohmann::json jsonbegin;
    nlohmann::json chunk_size = nlohmann::json::array();
    chunk_size.push_back(chunk_vector[0]);
    chunk_size.push_back(chunk_vector[1]);
    chunk_size.push_back(chunk_vector[2]);
    jsonbegin["mode"] = asr_mode;
    jsonbegin["chunk_size"] = chunk_size;
    jsonbegin["wav_name"] = wav_id;
    jsonbegin["wav_format"] = wav_format;
    jsonbegin["audio_fs"] = sampling_rate;
    jsonbegin["is_speaking"] = true;
    jsonbegin["itn"] = true;
    if(use_itn == 0){
      jsonbegin["itn"] = false;
    }
    if(!hws_map.empty()){
        LOG(INFO) << "hotwords: ";
        for (const auto& pair : hws_map) {
            LOG(INFO) << pair.first << " : " << pair.second;
        }
        nlohmann::json json_map(hws_map);
        std::string json_map_str = json_map.dump();
        jsonbegin["hotwords"] = json_map_str;
    }
    m_client.send(m_hdl, jsonbegin.dump(), websocketpp::frame::opcode::text,
                  ec);

    // fetch wav data use asr engine api
    if (wav_format == "pcm") {
      while (audio.Fetch(buff, len, flag) > 0) {
        short* iArray = new short[len];
        for (size_t i = 0; i < len; ++i) {
          iArray[i] = (short)(buff[i] * 32768);
        }

        // send data to server
        int offset = 0;
        int block_size = 102400;
        while (offset < len) {
          int send_block = 0;
          if (offset + block_size <= len) {
            send_block = block_size;
          } else {
            send_block = len - offset;
          }
          m_client.send(m_hdl, iArray + offset, send_block * sizeof(short),
                websocketpp::frame::opcode::binary, ec);
          offset += send_block;
        }

        LOG(INFO) << "sended data len=" << len * sizeof(short);
        if (ec) {
          m_client.get_alog().write(websocketpp::log::alevel::app,
                                    "Send Error: " + ec.message());
          break;
        }
        delete[] iArray;
      }
    } else {
      int offset = 0;
      int block_size = 204800;
      len = audio.GetSpeechLen();
      char* others_buff = audio.GetSpeechChar();

      while (offset < len) {
        int send_block = 0;
        if (offset + block_size <= len) {
          send_block = block_size;
        } else {
          send_block = len - offset;
        }
        m_client.send(m_hdl, others_buff + offset, send_block,
                      websocketpp::frame::opcode::binary, ec);
        offset += send_block;
      }

      LOG(INFO) << "sended data len=" << len;
      if (ec) {
        m_client.get_alog().write(websocketpp::log::alevel::app,
                                  "Send Error: " + ec.message());
      }
    }

    nlohmann::json jsonresult;
    jsonresult["is_speaking"] = false;
    m_client.send(m_hdl, jsonresult.dump(), websocketpp::frame::opcode::text,
                  ec);
    WaitABit();
  }

  static int RecordCallback(const void* inputBuffer, void* outputBuffer,
      unsigned long framesPerBuffer, const PaStreamCallbackTimeInfo* timeInfo,
      PaStreamCallbackFlags statusFlags, void* userData)
  {
      std::vector<float>* buffer = static_cast<std::vector<float>*>(userData);
      const float* input = static_cast<const float*>(inputBuffer);

      for (unsigned int i = 0; i < framesPerBuffer; i++)
      {
          buffer->push_back(input[i]);
      }

      return paContinue;
  }

  void send_rec_data(std::string asr_mode, std::vector<int> chunk_vector, 
                     const std::unordered_map<std::string, int>& hws_map, int use_itn) {
    // first message
    bool wait = false;
    while (1) {
      {
        scoped_lock guard(m_lock);
        // If the connection has been closed, stop generating data
        if (m_done) {
          break;
        }
        // If the connection hasn't been opened yet wait a bit and retry
        if (!m_open) {
          wait = true;
        } else {
          break;
        }
      }

      if (wait) {
        // LOG(INFO) << "wait.." << m_open;
        WaitABit();
        continue;
      }
    }
    websocketpp::lib::error_code ec;

    float sample_rate = 16000;
    nlohmann::json jsonbegin;
    nlohmann::json chunk_size = nlohmann::json::array();
    chunk_size.push_back(chunk_vector[0]);
    chunk_size.push_back(chunk_vector[1]);
    chunk_size.push_back(chunk_vector[2]);
    jsonbegin["mode"] = asr_mode;
    jsonbegin["chunk_size"] = chunk_size;
    jsonbegin["wav_name"] = "record";
    jsonbegin["wav_format"] = "pcm";
    jsonbegin["audio_fs"] = sample_rate;
    jsonbegin["is_speaking"] = true;
    jsonbegin["itn"] = true;
    if(use_itn == 0){
      jsonbegin["itn"] = false;
    }
    if(!hws_map.empty()){
        LOG(INFO) << "hotwords: ";
        for (const auto& pair : hws_map) {
            LOG(INFO) << pair.first << " : " << pair.second;
        }
        nlohmann::json json_map(hws_map);
        std::string json_map_str = json_map.dump();
        jsonbegin["hotwords"] = json_map_str;
    }
    m_client.send(m_hdl, jsonbegin.dump(), websocketpp::frame::opcode::text,
                  ec);
    // mic
    Microphone mic;
    PaDeviceIndex num_devices = Pa_GetDeviceCount();
    LOG(INFO) << "Num devices: " << num_devices;

    PaStreamParameters param;

    param.device = Pa_GetDefaultInputDevice();
    if (param.device == paNoDevice) {
      LOG(INFO) << "No default input device found";
      exit(EXIT_FAILURE);
    }
    LOG(INFO) << "Use default device: " << param.device;

    const PaDeviceInfo *info = Pa_GetDeviceInfo(param.device);
    LOG(INFO) << "  Name: " << info->name;
    LOG(INFO) << "  Max input channels: " << info->maxInputChannels;

    param.channelCount = 1;
    param.sampleFormat = paFloat32;

    param.suggestedLatency = info->defaultLowInputLatency;
    param.hostApiSpecificStreamInfo = nullptr;

    PaStream *stream;
    std::vector<float> buffer;
    PaError err =
        Pa_OpenStream(&stream, &param, nullptr, /* &outputParameters, */
                      sample_rate,
                      0,          // frames per buffer
                      paClipOff,  // we won't output out of range samples
                                  // so don't bother clipping them
                      RecordCallback, &buffer);
    if (err != paNoError) {
      LOG(ERROR) << "portaudio error: " << Pa_GetErrorText(err);
      exit(EXIT_FAILURE);
    }

    err = Pa_StartStream(stream);
    LOG(INFO) << "Started: ";

    if (err != paNoError) {
      LOG(ERROR) << "portaudio error: " << Pa_GetErrorText(err);
      exit(EXIT_FAILURE);
    }

    while(true){
      int len = buffer.size();
      short* iArray = new short[len];
      for (size_t i = 0; i < len; ++i) {
        iArray[i] = (short)(buffer[i] * 32768);
      }

      m_client.send(m_hdl, iArray, len * sizeof(short),
                    websocketpp::frame::opcode::binary, ec);
      buffer.clear();

      if (ec) {
        m_client.get_alog().write(websocketpp::log::alevel::app,
                                  "Send Error: " + ec.message());
      }
      Pa_Sleep(20);  // sleep for 20ms
    }

    nlohmann::json jsonresult;
    jsonresult["is_speaking"] = false;
    m_client.send(m_hdl, jsonresult.dump(), websocketpp::frame::opcode::text,
                  ec);
    
    err = Pa_CloseStream(stream);
    if (err != paNoError) {
      LOG(INFO) << "portaudio error: " << Pa_GetErrorText(err);
      exit(EXIT_FAILURE);
    }
  }

  websocketpp::client<T> m_client;

 private:
  websocketpp::connection_hdl m_hdl;
  websocketpp::lib::mutex m_lock;
  bool m_open;
  bool m_done;
  int total_num = 0;
};

int main(int argc, char* argv[]) {
#ifdef _WIN32
  #include <windows.h>
  SetConsoleOutputCP(65001);
#endif
  google::InitGoogleLogging(argv[0]);
  FLAGS_logtostderr = true;

  TCLAP::CmdLine cmd("funasr-wss-client-2pass", ' ', "1.0");
  TCLAP::ValueArg<std::string> server_ip_("", "server-ip", "server-ip", true,
                                          "127.0.0.1", "string");
  TCLAP::ValueArg<std::string> port_("", "port", "port", true, "10095",
                                     "string");
  TCLAP::ValueArg<std::string> wav_path_(
      "", "wav-path",
      "the input could be: wav_path, e.g.: asr_example.wav; pcm_path, e.g.: "
      "asr_example.pcm; wav.scp, kaldi style wav list (wav_id \t wav_path)",
      false, "", "string");
  TCLAP::ValueArg<std::int32_t> audio_fs_("", "audio-fs", "the sample rate of audio", false, 16000, "int32_t");
  TCLAP::ValueArg<int> record_(
      "", "record",
      "record is 1 means use record", false, 0,
      "int");
  TCLAP::ValueArg<std::string> asr_mode_("", ASR_MODE, "offline, online, 2pass",
                                         false, "2pass", "string");
  TCLAP::ValueArg<std::string> chunk_size_("", "chunk-size",
                                           "chunk_size: 5-10-5 or 5-12-5",
                                           false, "5-10-5", "string");
  TCLAP::ValueArg<int> thread_num_("", "thread-num", "thread-num", false, 1,
                                   "int");
  TCLAP::ValueArg<int> is_ssl_(
      "", "is-ssl",
      "is-ssl is 1 means use wss connection, or use ws connection", false, 1,
      "int");
  TCLAP::ValueArg<int> use_itn_(
      "", "use-itn",
      "use-itn is 1 means use itn, 0 means not use itn", false, 1,
      "int");
  TCLAP::ValueArg<std::string> hotword_("", HOTWORD,
      "the hotword file, one hotword perline, Format: Hotword Weight (could be: 阿里巴巴 20)", false, "", "string");

  cmd.add(server_ip_);
  cmd.add(port_);
  cmd.add(wav_path_);
  cmd.add(audio_fs_);
  cmd.add(asr_mode_);
  cmd.add(record_);
  cmd.add(chunk_size_);
  cmd.add(thread_num_);
  cmd.add(is_ssl_);
  cmd.add(use_itn_);
  cmd.add(hotword_);
  cmd.parse(argc, argv);

  std::string server_ip = server_ip_.getValue();
  std::string port = port_.getValue();
  std::string wav_path = wav_path_.getValue();
  std::string asr_mode = asr_mode_.getValue();
  std::string chunk_size_str = chunk_size_.getValue();
  int use_itn = use_itn_.getValue();
  // get chunk_size
  std::vector<int> chunk_size;
  std::stringstream ss(chunk_size_str);
  std::string item;
  while (std::getline(ss, item, '-')) {
    try {
      chunk_size.push_back(stoi(item));
    } catch (const invalid_argument&) {
      LOG(ERROR) << "Invalid argument: " << item;
      exit(-1);
    }
  }

  int threads_num = thread_num_.getValue();
  int is_ssl = is_ssl_.getValue();
  int is_record = record_.getValue();

  std::string uri = "";
  if (is_ssl == 1) {
    uri = "wss://" + server_ip + ":" + port;
  } else {
    uri = "ws://" + server_ip + ":" + port;
  }

  // hotwords
  std::string hotword_path = hotword_.getValue();
  unordered_map<string, int> hws_map;
  if(!hotword_path.empty()){
      LOG(INFO) << "hotword path: " << hotword_path;
      funasr::ExtractHws(hotword_path, hws_map);
  }

  int audio_fs = audio_fs_.getValue();
  if(is_record == 1){
      std::vector<string> tmp_wav_list;
      std::vector<string> tmp_wav_ids;

      if (is_ssl == 1) {
        WebsocketClient<websocketpp::config::asio_tls_client> c(is_ssl);

        c.m_client.set_tls_init_handler(bind(&OnTlsInit, ::_1));

        c.run(uri, tmp_wav_list, tmp_wav_ids, audio_fs, asr_mode, chunk_size, hws_map, true, use_itn);
      } else {
        WebsocketClient<websocketpp::config::asio_client> c(is_ssl);

        c.run(uri, tmp_wav_list, tmp_wav_ids, audio_fs, asr_mode, chunk_size, hws_map, true, use_itn);
      }

  }else{
    // read wav_path
    std::vector<string> wav_list;
    std::vector<string> wav_ids;
    string default_id = "wav_default_id";
    if (funasr::IsTargetFile(wav_path, "scp")) {
      ifstream in(wav_path);
      if (!in.is_open()) {
        printf("Failed to open scp file");
        return 0;
      }
      string line;
      while (getline(in, line)) {
        istringstream iss(line);
        string column1, column2;
        iss >> column1 >> column2;
        wav_list.emplace_back(column2);
        wav_ids.emplace_back(column1);
      }
      in.close();
    } else {
      wav_list.emplace_back(wav_path);
      wav_ids.emplace_back(default_id);
    }

    for (size_t wav_i = 0; wav_i < wav_list.size(); wav_i = wav_i + threads_num) {
      std::vector<websocketpp::lib::thread> client_threads;
      for (size_t i = 0; i < threads_num; i++) {
        if (wav_i + i >= wav_list.size()) {
          break;
        }
        std::vector<string> tmp_wav_list;
        std::vector<string> tmp_wav_ids;

        tmp_wav_list.emplace_back(wav_list[wav_i + i]);
        tmp_wav_ids.emplace_back(wav_ids[wav_i + i]);

        client_threads.emplace_back(
            [uri, tmp_wav_list, tmp_wav_ids, audio_fs, asr_mode, chunk_size, is_ssl, hws_map, use_itn]() {
              if (is_ssl == 1) {
                WebsocketClient<websocketpp::config::asio_tls_client> c(is_ssl);

                c.m_client.set_tls_init_handler(bind(&OnTlsInit, ::_1));

                c.run(uri, tmp_wav_list, tmp_wav_ids, audio_fs, asr_mode, chunk_size, hws_map, false, use_itn);
              } else {
                WebsocketClient<websocketpp::config::asio_client> c(is_ssl);

                c.run(uri, tmp_wav_list, tmp_wav_ids, audio_fs, asr_mode, chunk_size, hws_map, false, use_itn);
              }
            });
      }

      for (auto& t : client_threads) {
        t.join();
      }
    }
  }
}