host/commands/run_cvd/launch.cc - device/google/cuttlefish - Gitiles

 #include "host/commands/run_cvd/launch.h"

 #include <sys/types.h>
 #include <sys/stat.h>

 #include <glog/logging.h>

 #include "common/libs/fs/shared_fd.h"
 #include "common/libs/utils/files.h"
 #include "common/libs/utils/size_utils.h"
 #include "host/commands/run_cvd/runner_defs.h"
 #include "host/commands/run_cvd/pre_launch_initializers.h"
 #include "host/libs/vm_manager/crosvm_manager.h"
 #include "host/libs/vm_manager/qemu_manager.h"

 using cvd::RunnerExitCodes;
 using cvd::MonitorEntry;

 namespace {

 std::string GetAdbConnectorTcpArg(const vsoc::CuttlefishConfig& config) {
   auto instance = config.ForDefaultInstance();
   return std::string{"127.0.0.1:"} + std::to_string(instance.host_port());
 }

 std::string GetAdbConnectorVsockArg(const vsoc::CuttlefishConfig& config) {
   auto instance = config.ForDefaultInstance();
   return std::string{"vsock:"}
       + std::to_string(instance.vsock_guest_cid())
       + std::string{":5555"};
 }

 bool AdbModeEnabled(const vsoc::CuttlefishConfig& config, vsoc::AdbMode mode) {
   return config.adb_mode().count(mode) > 0;
 }

 bool AdbVsockTunnelEnabled(const vsoc::CuttlefishConfig& config) {
   auto instance = config.ForDefaultInstance();
   return instance.vsock_guest_cid() > 2
       && AdbModeEnabled(config, vsoc::AdbMode::VsockTunnel);
 }

 bool AdbVsockHalfTunnelEnabled(const vsoc::CuttlefishConfig& config) {
   auto instance = config.ForDefaultInstance();
   return instance.vsock_guest_cid() > 2
       && AdbModeEnabled(config, vsoc::AdbMode::VsockHalfTunnel);
 }

 bool AdbTcpConnectorEnabled(const vsoc::CuttlefishConfig& config) {
   bool vsock_tunnel = AdbVsockTunnelEnabled(config);
   bool vsock_half_tunnel = AdbVsockHalfTunnelEnabled(config);
   return config.run_adb_connector() && (vsock_tunnel || vsock_half_tunnel);
 }

 bool AdbVsockConnectorEnabled(const vsoc::CuttlefishConfig& config) {
   return config.run_adb_connector()
       && AdbModeEnabled(config, vsoc::AdbMode::NativeVsock);
 }

 cvd::OnSocketReadyCb GetOnSubprocessExitCallback(
     const vsoc::CuttlefishConfig& config) {
   if (config.restart_subprocesses()) {
     return cvd::ProcessMonitor::RestartOnExitCb;
   } else {
     return cvd::ProcessMonitor::DoNotMonitorCb;
   }
 }

 cvd::SharedFD CreateUnixInputServer(const std::string& path) {
   auto server = cvd::SharedFD::SocketLocalServer(path.c_str(), false, SOCK_STREAM, 0666);
   if (!server->IsOpen()) {
     LOG(ERROR) << "Unable to create unix input server: "
                << server->StrError();
     return cvd::SharedFD();
   }
   return server;
 }

 // Creates the frame and input sockets and add the relevant arguments to the vnc
 // server and webrtc commands
 StreamerLaunchResult CreateStreamerServers(cvd::Command* cmd,
                                            const vsoc::CuttlefishConfig& config) {
   StreamerLaunchResult server_ret;
   cvd::SharedFD touch_server;
   cvd::SharedFD keyboard_server;

   auto instance = config.ForDefaultInstance();
   if (config.vm_manager() == vm_manager::QemuManager::name()) {
     cmd->AddParameter("-write_virtio_input");

     touch_server = cvd::SharedFD::VsockServer(SOCK_STREAM);
     server_ret.touch_server_vsock_port = touch_server->VsockServerPort();

     keyboard_server = cvd::SharedFD::VsockServer(SOCK_STREAM);
     server_ret.keyboard_server_vsock_port = keyboard_server->VsockServerPort();
   } else {
     touch_server = CreateUnixInputServer(instance.touch_socket_path());
     keyboard_server = CreateUnixInputServer(instance.keyboard_socket_path());
   }
   if (!touch_server->IsOpen()) {
     LOG(ERROR) << "Could not open touch server: " << touch_server->StrError();
     return {};
   }
   cmd->AddParameter("-touch_fd=", touch_server);

   if (!keyboard_server->IsOpen()) {
     LOG(ERROR) << "Could not open keyboard server: " << keyboard_server->StrError();
     return {};
   }
   cmd->AddParameter("-keyboard_fd=", keyboard_server);

   cvd::SharedFD frames_server;
   if (config.gpu_mode() == vsoc::kGpuModeDrmVirgl ||
       config.gpu_mode() == vsoc::kGpuModeGfxStream) {
     frames_server = CreateUnixInputServer(instance.frames_socket_path());
   } else {
     frames_server = cvd::SharedFD::VsockServer(SOCK_STREAM);
     server_ret.frames_server_vsock_port = frames_server->VsockServerPort();
   }
   if (!frames_server->IsOpen()) {
     LOG(ERROR) << "Could not open frames server: " << frames_server->StrError();
     return {};
   }
   cmd->AddParameter("-frame_server_fd=", frames_server);
   return server_ret;
 }

 } // namespace

 bool LogcatReceiverEnabled(const vsoc::CuttlefishConfig& config) {
   return config.logcat_mode() == cvd::kLogcatVsockMode;
 }

 std::vector<cvd::SharedFD> LaunchKernelLogMonitor(
     const vsoc::CuttlefishConfig& config,
     cvd::ProcessMonitor* process_monitor,
     unsigned int number_of_event_pipes) {
   auto instance = config.ForDefaultInstance();
   auto log_name = instance.kernel_log_pipe_name();
   if (mkfifo(log_name.c_str(), 0600) != 0) {
     LOG(ERROR) << "Unable to create named pipe at " << log_name << ": "
                << strerror(errno);
     return {};
   }

   cvd::SharedFD pipe;
   // Open the pipe here (from the launcher) to ensure the pipe is not deleted
   // due to the usage counters in the kernel reaching zero. If this is not done
   // and the kernel_log_monitor crashes for some reason the VMM may get SIGPIPE.
   pipe = cvd::SharedFD::Open(log_name.c_str(), O_RDWR);
   cvd::Command command(config.kernel_log_monitor_binary());
   command.AddParameter("-log_pipe_fd=", pipe);

   std::vector<cvd::SharedFD> ret;

   if (number_of_event_pipes > 0) {
     auto param_builder = command.GetParameterBuilder();
     param_builder << "-subscriber_fds=";
     for (unsigned int i = 0; i < number_of_event_pipes; ++i) {
       cvd::SharedFD event_pipe_write_end, event_pipe_read_end;
       if (!cvd::SharedFD::Pipe(&event_pipe_read_end, &event_pipe_write_end)) {
         LOG(ERROR) << "Unable to create boot events pipe: " << strerror(errno);
         std::exit(RunnerExitCodes::kPipeIOError);
       }
       if (i > 0) {
         param_builder << ",";
       }
       param_builder << event_pipe_write_end;
       ret.push_back(event_pipe_read_end);
     }
     param_builder.Build();
   }

   process_monitor->StartSubprocess(std::move(command),
                                    GetOnSubprocessExitCallback(config));

   return ret;
 }

 LogcatServerPorts LaunchLogcatReceiverIfEnabled(const vsoc::CuttlefishConfig& config,
                                                 cvd::ProcessMonitor* process_monitor) {
   if (!LogcatReceiverEnabled(config)) {
     return {};
   }
   auto socket = cvd::SharedFD::VsockServer(SOCK_STREAM);
   if (!socket->IsOpen()) {
     LOG(ERROR) << "Unable to create logcat server socket: "
                << socket->StrError();
     std::exit(RunnerExitCodes::kLogcatServerError);
   }
   cvd::Command cmd(config.logcat_receiver_binary());
   cmd.AddParameter("-server_fd=", socket);
   process_monitor->StartSubprocess(std::move(cmd),
                                    GetOnSubprocessExitCallback(config));
   return { socket->VsockServerPort() };
 }

 ConfigServerPorts LaunchConfigServer(const vsoc::CuttlefishConfig& config,
                                      cvd::ProcessMonitor* process_monitor) {
   auto socket = cvd::SharedFD::VsockServer(SOCK_STREAM);
   if (!socket->IsOpen()) {
     LOG(ERROR) << "Unable to create configuration server socket: "
                << socket->StrError();
     std::exit(RunnerExitCodes::kConfigServerError);
   }
   cvd::Command cmd(config.config_server_binary());
   cmd.AddParameter("-server_fd=", socket);
   process_monitor->StartSubprocess(std::move(cmd),
                                    GetOnSubprocessExitCallback(config));
   return { socket->VsockServerPort() };
 }

 TombstoneReceiverPorts LaunchTombstoneReceiverIfEnabled(
     const vsoc::CuttlefishConfig& config, cvd::ProcessMonitor* process_monitor) {
   if (!config.enable_tombstone_receiver()) {
     return {};
   }
   auto instance = config.ForDefaultInstance();

   std::string tombstoneDir = instance.PerInstancePath("tombstones");
   if (!cvd::DirectoryExists(tombstoneDir.c_str())) {
     LOG(INFO) << "Setting up " << tombstoneDir;
     if (mkdir(tombstoneDir.c_str(), S_IRWXU | S_IRWXG | S_IROTH | S_IXOTH) <
         0) {
       LOG(ERROR) << "Failed to create tombstone directory: " << tombstoneDir
                  << ". Error: " << errno;
       exit(RunnerExitCodes::kTombstoneDirCreationError);
       return {};
     }
   }

   auto socket = cvd::SharedFD::VsockServer(SOCK_STREAM);
   if (!socket->IsOpen()) {
     LOG(ERROR) << "Unable to create tombstone server socket: "
                << socket->StrError();
     std::exit(RunnerExitCodes::kTombstoneServerError);
     return {};
   }
   cvd::Command cmd(config.tombstone_receiver_binary());
   cmd.AddParameter("-server_fd=", socket);
   cmd.AddParameter("-tombstone_dir=", tombstoneDir);

   process_monitor->StartSubprocess(std::move(cmd),
                                    GetOnSubprocessExitCallback(config));
   return { socket->VsockServerPort() };
 }

 StreamerLaunchResult LaunchVNCServer(
     const vsoc::CuttlefishConfig& config,
     cvd::ProcessMonitor* process_monitor,
     std::function<bool(MonitorEntry*)> callback) {
   auto instance = config.ForDefaultInstance();
   // Launch the vnc server, don't wait for it to complete
   auto port_options = "-port=" + std::to_string(instance.vnc_server_port());
   cvd::Command vnc_server(config.vnc_server_binary());
   vnc_server.AddParameter(port_options);

   auto server_ret = CreateStreamerServers(&vnc_server, config);

   process_monitor->StartSubprocess(std::move(vnc_server), callback);
   server_ret.launched = true;
   return server_ret;
 }

 void LaunchAdbConnectorIfEnabled(cvd::ProcessMonitor* process_monitor,
                                  const vsoc::CuttlefishConfig& config,
                                  cvd::SharedFD adbd_events_pipe) {
   cvd::Command adb_connector(config.adb_connector_binary());
   adb_connector.AddParameter("-adbd_events_fd=", adbd_events_pipe);
   std::set<std::string> addresses;

   if (AdbTcpConnectorEnabled(config)) {
     addresses.insert(GetAdbConnectorTcpArg(config));
   }
   if (AdbVsockConnectorEnabled(config)) {
     addresses.insert(GetAdbConnectorVsockArg(config));
   }

   if (addresses.size() > 0) {
     std::string address_arg = "--addresses=";
     for (auto& arg : addresses) {
       address_arg += arg + ",";
     }
     address_arg.pop_back();
     adb_connector.AddParameter(address_arg);
     process_monitor->StartSubprocess(std::move(adb_connector),
                                      GetOnSubprocessExitCallback(config));
   }
 }

 StreamerLaunchResult LaunchWebRTC(cvd::ProcessMonitor* process_monitor,
                                   const vsoc::CuttlefishConfig& config) {
   cvd::Command webrtc(config.webrtc_binary());

   if (!config.webrtc_certs_dir().empty()) {
       webrtc.AddParameter("--certs_dir=", config.webrtc_certs_dir());
   }

   webrtc.AddParameter("--http_server_port=", vsoc::ForCurrentInstance(8443));
   webrtc.AddParameter("--public_ip=", config.webrtc_public_ip());
   webrtc.AddParameter("--assets_dir=", config.webrtc_assets_dir());

   auto server_ret = CreateStreamerServers(&webrtc, config);

   if (config.webrtc_enable_adb_websocket()) {
       auto instance = config.ForDefaultInstance();
       webrtc.AddParameter("--adb=", instance.adb_ip_and_port());
   }

   process_monitor->StartSubprocess(std::move(webrtc),
                                    GetOnSubprocessExitCallback(config));
   server_ret.launched = true;

   return server_ret;
 }

 void LaunchSocketVsockProxyIfEnabled(cvd::ProcessMonitor* process_monitor,
                                  const vsoc::CuttlefishConfig& config) {
   auto instance = config.ForDefaultInstance();
   if (AdbVsockTunnelEnabled(config)) {
     cvd::Command adb_tunnel(config.socket_vsock_proxy_binary());
     adb_tunnel.AddParameter("--server=tcp");
     adb_tunnel.AddParameter("--vsock_port=6520");
     adb_tunnel.AddParameter(
         std::string{"--tcp_port="} + std::to_string(instance.host_port()));
     adb_tunnel.AddParameter(std::string{"--vsock_cid="} +
                             std::to_string(instance.vsock_guest_cid()));
     process_monitor->StartSubprocess(std::move(adb_tunnel),
                                      GetOnSubprocessExitCallback(config));
   }
   if (AdbVsockHalfTunnelEnabled(config)) {
     cvd::Command adb_tunnel(config.socket_vsock_proxy_binary());
     adb_tunnel.AddParameter("--server=tcp");
     adb_tunnel.AddParameter("--vsock_port=5555");
     adb_tunnel.AddParameter(
         std::string{"--tcp_port="} + std::to_string(instance.host_port()));
     adb_tunnel.AddParameter(std::string{"--vsock_cid="} +
                             std::to_string(instance.vsock_guest_cid()));
     process_monitor->StartSubprocess(std::move(adb_tunnel),
                                      GetOnSubprocessExitCallback(config));
   }
 }
	#include "host/commands/run_cvd/launch.h"

	#include <sys/types.h>
	#include <sys/stat.h>

	#include <glog/logging.h>

	#include "common/libs/fs/shared_fd.h"
	#include "common/libs/utils/files.h"
	#include "common/libs/utils/size_utils.h"
	#include "host/commands/run_cvd/runner_defs.h"
	#include "host/commands/run_cvd/pre_launch_initializers.h"
	#include "host/libs/vm_manager/crosvm_manager.h"
	#include "host/libs/vm_manager/qemu_manager.h"

	using cvd::RunnerExitCodes;
	using cvd::MonitorEntry;

	namespace {

	std::string GetAdbConnectorTcpArg(const vsoc::CuttlefishConfig& config) {
	auto instance = config.ForDefaultInstance();
	return std::string{"127.0.0.1:"} + std::to_string(instance.host_port());
	}

	std::string GetAdbConnectorVsockArg(const vsoc::CuttlefishConfig& config) {
	auto instance = config.ForDefaultInstance();
	return std::string{"vsock:"}
	+ std::to_string(instance.vsock_guest_cid())
	+ std::string{":5555"};
	}

	bool AdbModeEnabled(const vsoc::CuttlefishConfig& config, vsoc::AdbMode mode) {
	return config.adb_mode().count(mode) > 0;
	}

	bool AdbVsockTunnelEnabled(const vsoc::CuttlefishConfig& config) {
	auto instance = config.ForDefaultInstance();
	return instance.vsock_guest_cid() > 2
	&& AdbModeEnabled(config, vsoc::AdbMode::VsockTunnel);
	}

	bool AdbVsockHalfTunnelEnabled(const vsoc::CuttlefishConfig& config) {
	auto instance = config.ForDefaultInstance();
	return instance.vsock_guest_cid() > 2
	&& AdbModeEnabled(config, vsoc::AdbMode::VsockHalfTunnel);
	}

	bool AdbTcpConnectorEnabled(const vsoc::CuttlefishConfig& config) {
	bool vsock_tunnel = AdbVsockTunnelEnabled(config);
	bool vsock_half_tunnel = AdbVsockHalfTunnelEnabled(config);
	return config.run_adb_connector() && (vsock_tunnel \|\| vsock_half_tunnel);
	}

	bool AdbVsockConnectorEnabled(const vsoc::CuttlefishConfig& config) {
	return config.run_adb_connector()
	&& AdbModeEnabled(config, vsoc::AdbMode::NativeVsock);
	}

	cvd::OnSocketReadyCb GetOnSubprocessExitCallback(
	const vsoc::CuttlefishConfig& config) {
	if (config.restart_subprocesses()) {
	return cvd::ProcessMonitor::RestartOnExitCb;
	} else {
	return cvd::ProcessMonitor::DoNotMonitorCb;
	}
	}

	cvd::SharedFD CreateUnixInputServer(const std::string& path) {
	auto server = cvd::SharedFD::SocketLocalServer(path.c_str(), false, SOCK_STREAM, 0666);
	if (!server->IsOpen()) {
	LOG(ERROR) << "Unable to create unix input server: "
	<< server->StrError();
	return cvd::SharedFD();
	}
	return server;
	}

	// Creates the frame and input sockets and add the relevant arguments to the vnc
	// server and webrtc commands
	StreamerLaunchResult CreateStreamerServers(cvd::Command* cmd,
	const vsoc::CuttlefishConfig& config) {
	StreamerLaunchResult server_ret;
	cvd::SharedFD touch_server;
	cvd::SharedFD keyboard_server;

	auto instance = config.ForDefaultInstance();
	if (config.vm_manager() == vm_manager::QemuManager::name()) {
	cmd->AddParameter("-write_virtio_input");

	touch_server = cvd::SharedFD::VsockServer(SOCK_STREAM);
	server_ret.touch_server_vsock_port = touch_server->VsockServerPort();

	keyboard_server = cvd::SharedFD::VsockServer(SOCK_STREAM);
	server_ret.keyboard_server_vsock_port = keyboard_server->VsockServerPort();
	} else {
	touch_server = CreateUnixInputServer(instance.touch_socket_path());
	keyboard_server = CreateUnixInputServer(instance.keyboard_socket_path());
	}
	if (!touch_server->IsOpen()) {
	LOG(ERROR) << "Could not open touch server: " << touch_server->StrError();
	return {};
	}
	cmd->AddParameter("-touch_fd=", touch_server);

	if (!keyboard_server->IsOpen()) {
	LOG(ERROR) << "Could not open keyboard server: " << keyboard_server->StrError();
	return {};
	}
	cmd->AddParameter("-keyboard_fd=", keyboard_server);

	cvd::SharedFD frames_server;
	if (config.gpu_mode() == vsoc::kGpuModeDrmVirgl \|\|
	config.gpu_mode() == vsoc::kGpuModeGfxStream) {
	frames_server = CreateUnixInputServer(instance.frames_socket_path());
	} else {
	frames_server = cvd::SharedFD::VsockServer(SOCK_STREAM);
	server_ret.frames_server_vsock_port = frames_server->VsockServerPort();
	}
	if (!frames_server->IsOpen()) {
	LOG(ERROR) << "Could not open frames server: " << frames_server->StrError();
	return {};
	}
	cmd->AddParameter("-frame_server_fd=", frames_server);
	return server_ret;
	}

	} // namespace

	bool LogcatReceiverEnabled(const vsoc::CuttlefishConfig& config) {
	return config.logcat_mode() == cvd::kLogcatVsockMode;
	}

	std::vector<cvd::SharedFD> LaunchKernelLogMonitor(
	const vsoc::CuttlefishConfig& config,
	cvd::ProcessMonitor* process_monitor,
	unsigned int number_of_event_pipes) {
	auto instance = config.ForDefaultInstance();
	auto log_name = instance.kernel_log_pipe_name();
	if (mkfifo(log_name.c_str(), 0600) != 0) {
	LOG(ERROR) << "Unable to create named pipe at " << log_name << ": "
	<< strerror(errno);
	return {};
	}

	cvd::SharedFD pipe;
	// Open the pipe here (from the launcher) to ensure the pipe is not deleted
	// due to the usage counters in the kernel reaching zero. If this is not done
	// and the kernel_log_monitor crashes for some reason the VMM may get SIGPIPE.
	pipe = cvd::SharedFD::Open(log_name.c_str(), O_RDWR);
	cvd::Command command(config.kernel_log_monitor_binary());
	command.AddParameter("-log_pipe_fd=", pipe);

	std::vector<cvd::SharedFD> ret;

	if (number_of_event_pipes > 0) {
	auto param_builder = command.GetParameterBuilder();
	param_builder << "-subscriber_fds=";
	for (unsigned int i = 0; i < number_of_event_pipes; ++i) {
	cvd::SharedFD event_pipe_write_end, event_pipe_read_end;
	if (!cvd::SharedFD::Pipe(&event_pipe_read_end, &event_pipe_write_end)) {
	LOG(ERROR) << "Unable to create boot events pipe: " << strerror(errno);
	std::exit(RunnerExitCodes::kPipeIOError);
	}
	if (i > 0) {
	param_builder << ",";
	}
	param_builder << event_pipe_write_end;
	ret.push_back(event_pipe_read_end);
	}
	param_builder.Build();
	}

	process_monitor->StartSubprocess(std::move(command),
	GetOnSubprocessExitCallback(config));

	return ret;
	}

	LogcatServerPorts LaunchLogcatReceiverIfEnabled(const vsoc::CuttlefishConfig& config,
	cvd::ProcessMonitor* process_monitor) {
	if (!LogcatReceiverEnabled(config)) {
	return {};
	}
	auto socket = cvd::SharedFD::VsockServer(SOCK_STREAM);
	if (!socket->IsOpen()) {
	LOG(ERROR) << "Unable to create logcat server socket: "
	<< socket->StrError();
	std::exit(RunnerExitCodes::kLogcatServerError);
	}
	cvd::Command cmd(config.logcat_receiver_binary());
	cmd.AddParameter("-server_fd=", socket);
	process_monitor->StartSubprocess(std::move(cmd),
	GetOnSubprocessExitCallback(config));
	return { socket->VsockServerPort() };
	}

	ConfigServerPorts LaunchConfigServer(const vsoc::CuttlefishConfig& config,
	cvd::ProcessMonitor* process_monitor) {
	auto socket = cvd::SharedFD::VsockServer(SOCK_STREAM);
	if (!socket->IsOpen()) {
	LOG(ERROR) << "Unable to create configuration server socket: "
	<< socket->StrError();
	std::exit(RunnerExitCodes::kConfigServerError);
	}
	cvd::Command cmd(config.config_server_binary());
	cmd.AddParameter("-server_fd=", socket);
	process_monitor->StartSubprocess(std::move(cmd),
	GetOnSubprocessExitCallback(config));
	return { socket->VsockServerPort() };
	}

	TombstoneReceiverPorts LaunchTombstoneReceiverIfEnabled(
	const vsoc::CuttlefishConfig& config, cvd::ProcessMonitor* process_monitor) {
	if (!config.enable_tombstone_receiver()) {
	return {};
	}
	auto instance = config.ForDefaultInstance();

	std::string tombstoneDir = instance.PerInstancePath("tombstones");
	if (!cvd::DirectoryExists(tombstoneDir.c_str())) {
	LOG(INFO) << "Setting up " << tombstoneDir;
	if (mkdir(tombstoneDir.c_str(), S_IRWXU \| S_IRWXG \| S_IROTH \| S_IXOTH) <
	0) {
	LOG(ERROR) << "Failed to create tombstone directory: " << tombstoneDir
	<< ". Error: " << errno;
	exit(RunnerExitCodes::kTombstoneDirCreationError);
	return {};
	}
	}

	auto socket = cvd::SharedFD::VsockServer(SOCK_STREAM);
	if (!socket->IsOpen()) {
	LOG(ERROR) << "Unable to create tombstone server socket: "
	<< socket->StrError();
	std::exit(RunnerExitCodes::kTombstoneServerError);
	return {};
	}
	cvd::Command cmd(config.tombstone_receiver_binary());
	cmd.AddParameter("-server_fd=", socket);
	cmd.AddParameter("-tombstone_dir=", tombstoneDir);

	process_monitor->StartSubprocess(std::move(cmd),
	GetOnSubprocessExitCallback(config));
	return { socket->VsockServerPort() };
	}

	StreamerLaunchResult LaunchVNCServer(
	const vsoc::CuttlefishConfig& config,
	cvd::ProcessMonitor* process_monitor,
	std::function<bool(MonitorEntry*)> callback) {
	auto instance = config.ForDefaultInstance();
	// Launch the vnc server, don't wait for it to complete
	auto port_options = "-port=" + std::to_string(instance.vnc_server_port());
	cvd::Command vnc_server(config.vnc_server_binary());
	vnc_server.AddParameter(port_options);

	auto server_ret = CreateStreamerServers(&vnc_server, config);

	process_monitor->StartSubprocess(std::move(vnc_server), callback);
	server_ret.launched = true;
	return server_ret;
	}

	void LaunchAdbConnectorIfEnabled(cvd::ProcessMonitor* process_monitor,
	const vsoc::CuttlefishConfig& config,
	cvd::SharedFD adbd_events_pipe) {
	cvd::Command adb_connector(config.adb_connector_binary());
	adb_connector.AddParameter("-adbd_events_fd=", adbd_events_pipe);
	std::set<std::string> addresses;

	if (AdbTcpConnectorEnabled(config)) {
	addresses.insert(GetAdbConnectorTcpArg(config));
	}
	if (AdbVsockConnectorEnabled(config)) {
	addresses.insert(GetAdbConnectorVsockArg(config));
	}

	if (addresses.size() > 0) {
	std::string address_arg = "--addresses=";
	for (auto& arg : addresses) {
	address_arg += arg + ",";
	}
	address_arg.pop_back();
	adb_connector.AddParameter(address_arg);
	process_monitor->StartSubprocess(std::move(adb_connector),
	GetOnSubprocessExitCallback(config));
	}
	}

	StreamerLaunchResult LaunchWebRTC(cvd::ProcessMonitor* process_monitor,
	const vsoc::CuttlefishConfig& config) {
	cvd::Command webrtc(config.webrtc_binary());

	if (!config.webrtc_certs_dir().empty()) {
	webrtc.AddParameter("--certs_dir=", config.webrtc_certs_dir());
	}

	webrtc.AddParameter("--http_server_port=", vsoc::ForCurrentInstance(8443));
	webrtc.AddParameter("--public_ip=", config.webrtc_public_ip());
	webrtc.AddParameter("--assets_dir=", config.webrtc_assets_dir());

	auto server_ret = CreateStreamerServers(&webrtc, config);

	if (config.webrtc_enable_adb_websocket()) {
	auto instance = config.ForDefaultInstance();
	webrtc.AddParameter("--adb=", instance.adb_ip_and_port());
	}

	process_monitor->StartSubprocess(std::move(webrtc),
	GetOnSubprocessExitCallback(config));
	server_ret.launched = true;

	return server_ret;
	}

	void LaunchSocketVsockProxyIfEnabled(cvd::ProcessMonitor* process_monitor,
	const vsoc::CuttlefishConfig& config) {
	auto instance = config.ForDefaultInstance();
	if (AdbVsockTunnelEnabled(config)) {
	cvd::Command adb_tunnel(config.socket_vsock_proxy_binary());
	adb_tunnel.AddParameter("--server=tcp");
	adb_tunnel.AddParameter("--vsock_port=6520");
	adb_tunnel.AddParameter(
	std::string{"--tcp_port="} + std::to_string(instance.host_port()));
	adb_tunnel.AddParameter(std::string{"--vsock_cid="} +
	std::to_string(instance.vsock_guest_cid()));
	process_monitor->StartSubprocess(std::move(adb_tunnel),
	GetOnSubprocessExitCallback(config));
	}
	if (AdbVsockHalfTunnelEnabled(config)) {
	cvd::Command adb_tunnel(config.socket_vsock_proxy_binary());
	adb_tunnel.AddParameter("--server=tcp");
	adb_tunnel.AddParameter("--vsock_port=5555");
	adb_tunnel.AddParameter(
	std::string{"--tcp_port="} + std::to_string(instance.host_port()));
	adb_tunnel.AddParameter(std::string{"--vsock_cid="} +
	std::to_string(instance.vsock_guest_cid()));
	process_monitor->StartSubprocess(std::move(adb_tunnel),
	GetOnSubprocessExitCallback(config));
	}
	}