Example #1
0
/**
 * \brief Updates this state.
 */
void Hero::GrabbingState::update() {

  if (is_suspended()) {
    return;
  }

  // the hero is grabbing an obstacle: check the direction pressed

  int wanted_direction8 = get_commands().get_wanted_direction8();
  int sprite_direction8 = get_sprites().get_animation_direction8();

  // release the obstacle
  Hero& hero = get_hero();
  if (!get_commands().is_command_pressed(GameCommands::ACTION)) {
    hero.set_state(new FreeState(hero));
  }

  // push the obstacle
  else if (wanted_direction8 == sprite_direction8) {
    hero.set_state(new PushingState(hero));
  }

  // pull the obstacle
  else if (wanted_direction8 == (sprite_direction8 + 4) % 8) {
    hero.set_state(new PullingState(hero));
  }
}
Example #2
0
void
main(void)
{
  sif= (unsigned char SIF_ADDRESS_SPACE *)0xffff;
  printf("Testing simulator interface at %s[0x%x]\n",
	 SIF_ADDRESS_SPACE_NAME, SIF_ADDRESS);
  printf("%s", detect()?"Interface found.":"Interface not found");
  if (detect())
    {
      int i;
      i= get_ifversion();
      get_sim_version();
      printf(" Version %d (of simulator %s)\n", i, sim_version);
      get_commands();
      printf("Interface knows about %d commands:\n", nuof_commands);
      for (i= 0; i < nuof_commands; i++)
	printf("%c", commands[i]);
      printf("\n");
      print_cmd_infos();
      sif_print("Message from simulated program: Hello World!\n");
      fout_demo("Write this message\n"
		"to simif output file.\n"
		"\n"
		"Done.\n");
      fin_demo();
    }
  else
    printf("\n");
  //* (char __idata *) 0 = * (char __xdata *) 0x7654;
  *sif= SIFCM_STOP;
}
Example #3
0
File: main.c Project: AndreRH/wine
static int open_mailto_url( const WCHAR *url )
{
#ifdef __APPLE__
    static const WCHAR defaultmailers[] =
        { '/','u','s','r','/','b','i','n','/','o','p','e','n',0,0 };
#else
    static const WCHAR defaultmailers[] =
        {'x','d','g','-','e','m','a','i','l',0,
         'm','o','z','i','l','l','a','-','t','h','u','n','d','e','r','b','i','r','d',0,
         't','h','u','n','d','e','r','b','i','r','d',0,
         'e','v','o','l','u','t','i','o','n',0,0 };
#endif
    static const WCHAR mailersW[] =
        {'M','a','i','l','e','r','s',0};

    WCHAR mailers[256];
    HKEY key;
    LONG r;

    /* @@ Wine registry key: HKCU\Software\Wine\WineBrowser */
    if (!(r = RegOpenKeyW( HKEY_CURRENT_USER, browser_key, &key )))
    {
        r = get_commands( key, mailersW, mailers, sizeof(mailers) );
        RegCloseKey( key );
    }
    if (r != ERROR_SUCCESS)
        memcpy( mailers, defaultmailers, sizeof(defaultmailers) );

    return launch_app( mailers, url );
}
/**
 * \brief Updates this state.
 */
void Hero::BoomerangState::update() {

  HeroState::update();

  Hero& hero = get_hero();
  if (hero.is_animation_finished()) {

    if (direction_pressed8 == -1) {
      // the player can press the diagonal arrows before or after the boomerang key
      direction_pressed8 = get_commands().get_wanted_direction8();
    }

    int boomerang_direction8;
    if (direction_pressed8 == -1 || direction_pressed8 % 2 == 0) {
      boomerang_direction8 = get_sprites().get_animation_direction() * 2;
    }
    else {
      boomerang_direction8 = direction_pressed8;
    }
    double angle = Geometry::degrees_to_radians(boomerang_direction8 * 45);
    get_entities().add_entity(std::make_shared<Boomerang>(
        std::static_pointer_cast<Hero>(get_hero().shared_from_this()),
        max_distance,
        speed,
        angle,
        sprite_name
    ));

    hero.set_state(new FreeState(hero));
  }
}
Example #5
0
void player_connection::handle_read( const boost::system::error_code error, const size_t len ) {

  if ( error && error != boost::asio::error::eof ) {
    //LOG_HIGH( SS, "player connection (" << _player_id << ") received an error that was not eof " );
    // ASSUME disconnected by mud
    return;
  }

  if( error == boost::asio::error::eof ) {
    LOG_LOW( SS, "player connection (" << _player_id << ") received eof ") ;
    _server->lost_link( _player_id );
    return;
  }
  
  // I think the handler won't get called until it reads *some* data, unless there is an error.
  // So if we get this far len shouldn't be 0
  assert( len > 0 );
  
  if ( len > 0 ) {
    //      LOG_LOW( SS, "read " << len );
  }
  
  for( int i = 0 ; i < len ; ++i) {
    _buf += _raw[i];
  }
  
  get_commands();
  
  start_read();
}
Example #6
0
/**
 * \brief Updates this state.
 */
void Hero::SwordSwingingState::update() {

    State::update();

    // check the animation
    if (get_sprites().is_animation_finished()) {

        sword_finished = true;
        if (hero.get_movement() == NULL) {

            // if the player is still pressing the sword key, start loading the sword
            if (get_commands().is_command_pressed(GameCommands::ATTACK)
                    && !attacked) {
                hero.set_state(new SwordLoadingState(hero));
            }
            else {
                hero.set_state(new FreeState(hero));
            }
        }
        else {
            // the sword animation is finished, but the movement continues
            hero.get_sprites().set_animation_stopped_normal();
        }
    }

    // check the movement if any
    if (hero.get_movement() != NULL && hero.get_movement()->is_finished()) {
        hero.clear_movement();
        if (sword_finished) {
            hero.set_state(new FreeState(hero));
        }
    }
}
Example #7
0
/**
 * \brief Updates this state.
 */
void Hero::SwordLoadingState::update() {

  PlayerMovementState::update();

  if (is_suspended() || !is_current_state()) {
    return;
  }

  uint32_t now = System::now();

  // detect when the sword is loaded (i.e. ready for a spin attack)
  if (!sword_loaded && now >= sword_loaded_date) {
    play_load_sound();
    sword_loaded = true;
  }

  if (!get_commands().is_command_pressed(GameCommand::ATTACK)) {
    // the player has just released the sword key

    // stop loading the sword, go to the normal state or make a spin attack
    Hero& hero = get_entity();
    if (!sword_loaded) {
      // the sword was not loaded yet: go to the normal state
      hero.set_state(new FreeState(hero));
    }
    else {
      // the sword is loaded: release a spin attack
      hero.set_state(new SpinAttackState(hero));
    }
  }
}
Example #8
0
int main(int argc, char **argv)
{
    SpiceCoreInterface *core;
    Command *commands;
    int num_commands;
    int i;
    Test *test;

    spice_test_config_parse_args(argc, argv);
    sized = 0;
    for (i = 1 ; i < argc; ++i) {
        if (strcmp(argv[i], "sized") == 0) {
            sized = 1;
        }
        /* render last frame */
        if (strcmp(argv[i], "render") == 0) {
            render_last_frame = 1;
        }
    }
    srand(time(NULL));
    // todo: add args list of test numbers with explenations
    core = basic_event_loop_init();
    test = test_new(core);
    spice_server_set_streaming_video(test->server, SPICE_STREAM_VIDEO_ALL);
    test_add_display_interface(test);
    get_commands(&commands, &num_commands);
    test_set_command_list(test, commands, num_commands);
    basic_event_loop_mainloop();
    free(commands);
    return 0;
}
Example #9
0
/**
 * \brief Updates this state.
 */
void Hero::PullingState::update() {

  State::update();

  Hero& hero = get_hero();
  if (!is_moving_grabbed_entity()) {

    int wanted_direction8 = get_commands().get_wanted_direction8();
    int opposite_direction8 = (get_sprites().get_animation_direction8() + 4) % 8;

    // stop pulling if the action key is released or if there is no more obstacle
    if (!get_commands().is_command_pressed(GameCommand::ACTION)
        || !hero.is_facing_obstacle()) {
      hero.set_state(new FreeState(hero));
    }

    // stop pulling the obstacle if the player changes his direction
    else if (wanted_direction8 != opposite_direction8) {
      hero.set_state(new GrabbingState(hero));
    }

    // see if the obstacle is an entity that the hero can pull
    else {

      Detector* facing_entity = hero.get_facing_entity();
      if (facing_entity != nullptr) {

        if (facing_entity->get_type() == EntityType::BLOCK) { // TODO use dynamic binding
          hero.try_snap_to_facing_entity();
        }

        if (facing_entity->start_movement_by_hero()) {

          std::string path = "  ";
          path[0] = path[1] = '0' + opposite_direction8;

          pulling_movement = std::make_shared<PathMovement>(
              path, 40, false, false, false
          );
          hero.set_movement(pulling_movement);
          pulled_entity = facing_entity;
          pulled_entity->notify_moving_by(hero);
        }
      }
    }
  }
}
Example #10
0
/**
 * \brief Updates this state.
 */
void Hero::SwordTappingState::update() {

  State::update();

  Hero& hero = get_hero();
  if (hero.get_movement() == NULL) {
    // the hero is not being pushed after hitting an enemy

    const Rectangle& facing_point = hero.get_facing_point();

    if (!get_commands().is_command_pressed(GameCommands::ATTACK)
        || get_commands().get_wanted_direction8() != get_sprites().get_animation_direction8()
        || !get_map().test_collision_with_obstacles(hero.get_layer(), facing_point.get_x(), facing_point.get_y(), hero)) {
      // the sword key has been released, the player has moved or the obstacle is gone

      if (get_sprites().get_current_frame() >= 5) {
        // when the animation is ok, stop tapping the wall, go back to loading the sword
        hero.set_state(new SwordLoadingState(hero));
      }
    }
    else {

      // play the sound every 100 ms
      uint32_t now = System::now();
      if (get_sprites().get_current_frame() == 3 && now >= next_sound_date) {

        Detector* facing_entity = hero.get_facing_entity();
        std::string sound_id;
        if (facing_entity != NULL) {
          sound_id = facing_entity->get_sword_tapping_sound();
        }
        else {
          sound_id = "sword_tapping";
        }
        Sound::play(sound_id);
        next_sound_date = now + 100;
      }
    }
  }
  else if (hero.get_movement()->is_finished()) {
    // the hero was pushed by an enemy
    hero.set_state(new FreeState(hero));
  }
}
/**
 * \brief Starts this state.
 * \param previous_state the previous state
 */
void Hero::BoomerangState::start(const HeroState* previous_state) {

  HeroState::start(previous_state);

  if (get_map().get_entities().is_boomerang_present()) {
    Hero& hero = get_hero();
    hero.set_state(new FreeState(hero));
  }
  else {
    get_sprites().set_animation_boomerang(tunic_preparing_animation);
    this->direction_pressed8 = get_commands().get_wanted_direction8();
  }
}
Example #12
0
int main(int argc,char *argv[])
{
   short error;                /* general purpose error variable */
   int pid;

   gProcessNumber = atoi(argv[1]);
   gPid = getpid();
   printf("Worker Process %03d is now running.  Pid=%d  Logfile=%s.\n",
	   gProcessNumber,gPid,argv[3]);

   // get name of input command file which will be remapped to STDIN
   // all parms and commands are input through stdin file
   strcpy(gCommandFile,argv[2]);

   /* open a log file */
   LogInit(argv[3],5);

   /* print header */
   LogMsg(LINEAFTER,"ODBC/SQL/TM Query/Transaction Generator (NOMAD)\n"
                    "Compiled: %s  %s\n\n",
                    __DATE__,__TIME__);

   /* read in command file contents and see what we're supposed to do */
   if(get_commands()!=SUCCESS) exit(EXIT_FAILURE);

   LogMsg(LINEAFTER,"MasterSeed = %d\n",gMasterSeed);

   /* initialize some globals, find and open required files */
   if(initialize()!=0) exit(EXIT_FAILURE);

   post_status(STARTED);

   /* get needed info about each of the tables this process will use */
   if(get_table_info(gpTableDesc,(short)gTableCount)!=0) exit(EXIT_FAILURE);

   /* now start the main execution loop */
   error=execute_command_list(0,gpList[0]->duration);
   /*>>> handle error somehow */
   /*>>> may not be a need to handle errors if it already posts... */
   /*>>>...error messages to the logfile */

   post_status(FINISHED);

   /* perform any clean up */
   /*>>> there currently isn't anything to do for clean-up, but later... */
   /*>>> ...versions will support this option */

	exit(EXIT_SUCCESS);
   } /* end of main() */
Example #13
0
int help(int argc, const char** argv) {
    shell_func func;

    //Check if they are trying to find help for a particular command
    if (argc > 1) {
        func = get_help(argv[1]);

        if (func == NULL) {
            putstr("Sorry no help exists for the command '");
            putstr(argv[1]);
            putstr("'\n");
        } else {
            func(argc, (const char **)argv);
        }
    } else {
        //List all possible commands
        putstr("Available commands:");
        putoptions(get_commands(""));
        putch('\n');
    }
    return 0;
}
Example #14
0
/**
 * @brief Updates this state.
 */
void Hero::ConveyorBeltState::update() {

  State::update();

  if (suspended) {
    return;
  }

  if (snapping && hero.get_movement()->is_finished()) {

    // the hero is now exactly placed on the conveyor belt: start the conveyor belt's movement
    snapping = false;
    std::string path = "  ";
    path[0] = path[1] = '0' + conveyor_belt.get_direction();
    hero.clear_movement();
    hero.set_movement(new PathMovement(path, 64, false, false, false));
  }
  else {

    // see if the conveyor belt's movement is finished
    if (hero.get_movement()->is_finished() || !hero.on_conveyor_belt) {

      hero.set_state(new FreeState(hero));
    }
    else {
      // update the sprites direction
      int keys_direction8 = get_commands().get_wanted_direction8();
      int movement_direction8 = conveyor_belt.get_direction();

      int animation_direction = get_sprites().get_animation_direction(keys_direction8, movement_direction8);
      if (animation_direction != get_sprites().get_animation_direction()
          && animation_direction != -1) {
        get_sprites().set_animation_direction(animation_direction);
      }
    }

    hero.on_conveyor_belt = false;
  }
}
Example #15
0
/*
@details
-# scan the incoming message for the command and requested path
-# start the return message with a "{"
-# if both a command and request is present
 -# if the command is "GET"
  -# if the path is "/" call get_top_page
  -# else if the path starts with "/vars" call get_vars
  -# else if the path starts with "/commands" call get_commands
  -# else create an error message reply
 -# else if the command is "POST" do something at some point.
 -# else create an error message reply
-# else create an error message reply
-# close the return message with a "}"
-# create the http header for the reply message
-# call tc_write to send the reply message
*/
void Trick::JSONVariableServerThread::parse_request() {
    // Need to protect against buffer overflow
    char command[32] ;
    char path[512] ;
    std::stringstream ss ;
    std::stringstream body ;
    int ret ;

    ret = sscanf(incoming_msg, "%s %s", command , path) ;

    body << "{" << std::endl ;
    if ( ret == 2 ) {
        //std::cout << "command = " << command << std::endl ;
        //std::cout << "path = " << path << std::endl ;

        if ( ! strcmp(command, "GET") ) {
            if ( ! strcmp(path, "/") ) {
                // send the top page
                ret = get_top_page(body) ;
            } else if ( ! strncmp(path, "/vars", 5)) {
                // get list of variables or value
                ret = get_vars(body, &path[5]) ;
            } else if ( ! strncmp(path, "/commands", 9)) {
                // get list of commands
                ret = get_commands(body, &path[9]) ;
            } else {
                ret = 404 ;
                body << "    \"name\" : \"" << path << "\" ," << std::endl ;
                body << "    \"message\" : \"Not Found\"" << std::endl ;
            }
        } else if ( ! strcmp( command, "POST") ) {
            //TODO: Allow setting variable values with POST.
            ret = 405 ;
            body << "    \"verb\" : \"" << command << "\" ," << std::endl ;
            body << "    \"message\" : \"Method not allowed\"" << std::endl ;
        } else {
            ret = 405 ;
            body << "    \"verb\" : \"" << command << "\" ," << std::endl ;
            body << "    \"message\" : \"Method not allowed\"" << std::endl ;
        }

    } else {
        ret = 400 ;
        body << "    \"message\" : \"Bad Request\"" << std::endl ;
    }
    body << "}" << std::endl ;

    ss << "HTTP/1.1 " << ret ;
    switch (ret) {
        case 200:
            ss << " OK" ;
            break ;
        case 400:
            ss << " Bad Request" ;
            break ;
        case 404:
            ss << " Not Found" ;
            break ;
        case 405:
            ss << " Method Not Allowed" ;
            break ;
        default:
            ss << " Unknown" ;
            break ;
    }
    ss << std::endl ;
    ss << "Content-Type: application/json" << std::endl ;
    ss << "Content-Length: " << body.str().size() << std::endl << std::endl ;
    ss << body.str() ;
    //std::cout << ss.str() ;
    tc_write(&connection, (char *)ss.str().c_str() , ss.str().size()) ;
}
Example #16
0
int
main(int argc, char **argv, char **envp)
{
	tnfctl_errcode_t	err = TNFCTL_ERR_NONE;
	int			sys_err;
	tnfctl_trace_attrs_t	trace_attrs;
	tnfctl_event_t		event = TNFCTL_EVENT_EINTR;
	pid_t			prex_pid;

	/* internationalization stuff */
	(void) setlocale(LC_ALL, "");
#if !defined(TEXT_DOMAIN)	/* Should be defined by cc -D */
#define	TEXT_DOMAIN "SYS_TEST"	/* Use this only if it weren't */
#endif
	(void) textdomain(TEXT_DOMAIN);

	g_argv = argv;

	prex_pid = getpid();
#if defined(DEBUG)
	fprintf(stderr, "### prex_pid = %d ###\n", prex_pid);
#endif
	prex_dmodel = get_data_model(prex_pid);
#if defined(DEBUG)
	fprintf(stderr, "### prex_dmodel = %d ###\n", prex_dmodel);
#endif
	scanargs(argc, argv);

	if (g_kernelmode) {
		/* prexing the kernel */
		err = tnfctl_kernel_open(&g_hndl);
		if (err) {
			err_fatal(gettext(
				"%s: trouble attaching to the kernel: %s\n"),
				argv[0], tnfctl_strerror(err));
		}
	} else {
		/* prexing a user process */
		if (g_targetpid != 0) {
			/* check data model */
			check_pid_model(argv, envp);
			/* attach case */
			err = tnfctl_pid_open(g_targetpid, &g_hndl);
			if (err == TNFCTL_ERR_NOLIBTNFPROBE) {
				err_fatal(gettext(
					"%s: missing symbols, is "
					"libtnfprobe.so loaded in target?\n"),
					argv[0], tnfctl_strerror(err));
			} else if (err) {
				err_fatal(gettext(
					"%s: trouble attaching to target "
					"process: %s\n"),
					argv[0], tnfctl_strerror(err));
			}
		} else {
			/* check elf class model */
			check_exec_model(argv, envp);
			/* exec case */
			err = tnfctl_exec_open(g_cmdname, g_cmdargs, NULL,
					g_preload, NULL, &g_hndl);
			if (err == TNFCTL_ERR_NONE)
				err = tnfctl_trace_attrs_get(g_hndl,
						&trace_attrs);
			if (err) {
				err_fatal(gettext(
					"%s: trouble creating target process: "
					"%s\n"),
					argv[0], tnfctl_strerror(err));
			}
			g_targetpid = trace_attrs.targ_pid;
		}

		sys_err = set_signal();
		if (sys_err)
			err_fatal(gettext(
				"%s: trouble setting up signal handler: %s\n"),
				argv[0], strerror(err));
	}

	/* initialize the source stack for the parser */
	source_init();

	if (!g_kernelmode) {
		/* set the tracefile name and size */
		err = set_tracefile(g_hndl);
		if (err) {
			(void) fprintf(stderr, gettext(
				"%s: trouble initializing tracefile: %s\n"),
				argv[0], tnfctl_strerror(err));
			goto Cleanup;
		}
		err = check_trace_error(g_hndl);
		if (err) {
			(void) fprintf(stderr, gettext(
				"%s: cannot read tracing status : %s\n"),
				argv[0], tnfctl_strerror(err));
			goto Cleanup;
		}
	}

	/* accept commands from stdin the first time through */
	g_getcmds = B_TRUE;

	/* set up default aliases */
	set_default_cmd();

	/* set up creator/destructor function to call for new probes */
	err = set_probe_discovery_callback(g_hndl);
	if (err) {
		(void) fprintf(stderr, gettext(
			"%s: error in probe discovery : %s\n"),
			argv[0], tnfctl_strerror(err));
		goto Cleanup;
	}

	if (g_kernelmode) {
		prbk_warn_pfilter_empty();
	}

	while (err == TNFCTL_ERR_NONE) {

		if (g_kernelmode || g_getcmds) {
			g_getcmds = B_FALSE;
			get_commands();
		}

		if (!g_kernelmode && (g_getcmds == B_FALSE)) {
		    err = tnfctl_continue(g_hndl, &event, NULL);
		    if (err) {
			(void) fprintf(stderr, gettext(
				"%s: cannot continue target : %s\n"),
				argv[0], tnfctl_strerror(err));
			goto Cleanup;
		    }
		}
		err = check_trace_error(g_hndl);
		if (err) {
			(void) fprintf(stderr, gettext(
				"%s: cannot read tracing status : %s\n"),
				argv[0], tnfctl_strerror(err));
			goto Cleanup;
		}
		if (!g_kernelmode) {
			if (event == TNFCTL_EVENT_EXEC) {
			    (void) printf(gettext(
				"Target process exec'd\n"));
			    quit(B_FALSE, B_TRUE);	/* quit resume */
			} else if (event == TNFCTL_EVENT_EXIT) {
			    /* target exited */
			    (void) fprintf(stderr, gettext(
				"%s: target process exited\n"),
				g_argv[0]);
			    goto Cleanup;
			} else if (event == TNFCTL_EVENT_TARGGONE) {
				/* target terminated */
			    (void) fprintf(stderr,
	gettext("%s: target process disappeared (without calling exit)\n"),
				g_argv[0]);
			    goto Cleanup;
			}
		}
	}

Cleanup:
	err = tnfctl_close(g_hndl, TNFCTL_TARG_DEFAULT);
	if (err)
		(void) fprintf(stderr, gettext(
			"%s: error on closing : %s\n"),
			argv[0], tnfctl_strerror(err));

	exit(0);

	return (0);

}
int main(int argc, char *argv[])
{
	command_t *cmd;
	mem_region_t *mr;
	target_context_t *tc;

#if !defined(WIN32)
	cmd = get_commands(argc, argv);
	if(cmd == NULL) return -1;
#endif

	/* open raw ethernet socket if desired, then drop root */
#if !defined(WIN32)
	if (opt_ethernet)
		eth_raw_socket();
#endif
	drop_root();

	/* miscellaneous initialization */

	init_crc32();

	/* open a connection to the target */
	if (!(tc = target_open(opt_port, opt_ethernet ? opt_netif : NULL))){
		panic("couldn't open connection to target");
		return -1;
	}

	while (cmd) {
		command_t *tmp;

		if (opt_verbose)
			print_command(cmd);

		switch (cmd->type) {

#ifdef AJ_FIRMUPDATE_SUPPORT
                case CMD_FIRMUPDATE:
			mr = slurp_file_or_die(cmd->input_path);
			if(require_flags(tc, REQ_MEM_MAP) == -1){
				return -1;
			}
                        firmupdate(tc, mr);
			break;
#endif

		case CMD_DOWNLOAD:
			if (cmd->region && cmd->info.download.have_address){
				panic("can't specify both region and address");
				return -1;
			}

			mr = slurp_file_or_die(cmd->input_path);
			if(require_flags(tc, REQ_MEM_MAP) == -1){
				return -1;
			}
			if (cmd->region)
				download_to_region(tc, mr, cmd->region);
			else if (cmd->info.download.have_address)
				download_to_addr(tc, mr, cmd->addr);
			else{
				warn("download: must specify address or region\n");
				return -1;
			}
			break;

		case CMD_ERASE:
			if (cmd->region && cmd->info.download.have_address){
				panic("can't specify both region and address");
				return -1;
			}

			if(require_flags(tc, REQ_MEM_MAP) == -1){
				return -1;
			}
			if (cmd->region)
				erase_region(tc, cmd->region);
			else if (cmd->info.download.have_address)
				erase_addr(tc, cmd->addr);
			else{
				warn("erase: must specify address or region\n");
				return -1;
			}
			break;

		case CMD_MAP:
			if(require_flags(tc, REQ_MEM_MAP) == -1){
				return -1;
			}
			region_print(tc->memmap);
			return 0;

		case CMD_TERMINAL:
			if(restore_interactive(tc) == -1){
				return -1;
			}
#if !defined(WIN32)
			serial_terminal();
#endif
			return 0;

		case CMD_MD5SUM:
			if (cmd->region && cmd->info.download.have_address){
				panic("md5sum: can't specify both region and address");
				return -1;
			}

			if (cmd->size == 0) {
				warn("md5sum: must specify size\n");
				return -1;
			}

			if (cmd->region){
				if(require_flags(tc, REQ_MEM_MAP) == -1){
					return -1;
				}

				md5sum_region(tc, cmd->region, cmd->size);
			} else if (cmd->info.download.have_address) {
				md5sum_addr(tc, cmd->addr, cmd->size);
			} else{
				warn("md5sum: must specify address or region\n");
				return -1;
			}
			break;

		default:
			warn("unsupported command\n");
			return -1;
		}

		tmp = cmd;
		cmd = cmd->next;
		/*
		 * We don't free paths in the command because we don't
		 * know whether or not they're dynamically allocated.
		 * Thus we leak a little memory.  It's not like this
		 * is a long-running program...
		 */
		free(tmp);
	}

	restore_interactive(tc);
	return 0;
}
Example #18
0
/**
 * \brief Returns whether the hero is still pressing the key that made him
 * start running.
 * \return true if the hero is still pressing the running key
 */
bool Hero::RunningState::is_pressing_running_key() const {

  return get_commands().is_command_pressed(command);
}
Example #19
0
int main(void) {
  // Helpful Flags
  bool IS_NOT_ALONE, IS_ALONE, IS_INTERNAL, IS_EXTERNAL, IS_CD, IS_EXIT;
  bool IS_PARENT, IS_CHILD, IS_REDIRECTED, IS_FIRST, IS_LAST, IS_MIDDLE;

  // Pipe Holders
  int *pipe_left;
  int *pipe_right;   
  
  // Holders for dup'd STDIN, OUT in case of redirected internal commands
  int ORIGINAL_STDIN, ORIGINAL_STDOUT; 

  // Holder for command string from STDIO.
  char *str;
  
  // This gets the current username
  char *login;
  login = getlogin();

  // This is the current working directory
  // This will be updated on cd commands run internally
  char cwd[MAXPATH];
  getcwd(cwd, MAXPATH);
  
  // pointer to pid holder for children and waiting
  pid_t child_pid; 

  // for execution & internal/external checking
  char *command_name;

  size_t command_length;

  // parsed command holder + pointer for counting number of commands
  command *comms = NULL;
  command *command_walker;

  char prompt[80];

  // for loop iteration variable
  int i;

  // This will never be freed until we exit (and then by default).
  pipe_left = malloc(2*sizeof(int));
  pipe_right = malloc(2*sizeof(int));
  if ((pipe_left == NULL) || (pipe_right == NULL)) {
    fprintf(stderr, 
      "%s: Could not allocate holder for potential pipes. Exiting.\n", 
      SHELL_ERROR_IDENTIFIER);
    exit(EXIT_FAILURE);
  }
  
  /**
    * Curiosity Shell Control Flow
    * The structure of the program is broken up as follows:
    * Pipe Creation
    * Fork Handler
    * Pipe Cleanup
    * Redirection (Including for Parent Internal Commands)
    * Command Run (Child, Parent), Parent Wait (if appropriate)
    * Reset Temporary Parent Redirection for Internal Commands
    * Get Next User Input
    */
  while(1){
    // Free the previous command
    free_commands(comms);

    // Display prompt.
    sprintf(prompt, "%s:%s> ", login, cwd);
    str = readline(prompt);
    if (str == NULL) {
      exit(EXIT_SUCCESS);
    }
    
    // Save the history.
    if (str && *str)
      add_history (str);    
      
    // Prepare to tokenize    
    command_length = strlen((const char *) str);
    if (command_length == 0) {
      comms = NULL;
      continue;
    }

    // Tokenize & parse into discrete commands
    comms = get_commands(str);
    if (str != NULL)
      free(str);
    
    // If no commands, create another prompt in the next iteration
    if (comms == NULL) {
      continue;
    }

    // count number of commands, command_length
    command_length = 0;
    command_walker = comms;
    while (command_walker->argv != NULL) {
      command_length += 1;
      command_walker += 1;
    }
    
    // Set IS_ALONE, IS_NOT_ALONE Flags
    IS_ALONE = false;
    IS_NOT_ALONE = false;
    if (command_length == 1) IS_ALONE = true;
    if (command_length > 1) IS_NOT_ALONE = true;

    /* Handle Latest Set of Commands */
    for (i = 0; i < command_length; i++) {
      /*
        Set Flags for THIS command
        IS_FIRST, IS_MIDDLE, IS_LAST, IS_INTERNAL, IS_EXTERNAL, IS_CD, IS_EXIT
      */
      
      command_name = comms[i].argv[0];        

      IS_FIRST = false;
      IS_MIDDLE = false;
      IS_LAST = false;

      if (i == 0) {
        IS_FIRST = true;
      }
      if (i == (command_length-1)) {
        IS_LAST = true;
      }
      if ((!IS_FIRST) && (!IS_LAST)) {
        IS_MIDDLE = true;
      }

      IS_INTERNAL = false;
      IS_EXTERNAL = true;
      IS_CD = false;
      IS_EXIT = false;
      if (strcmp((const char *)command_name, (const char *) "cd") == 0) {
        IS_CD = true;
      }
      if (strcmp((const char *)command_name, (const char *) "exit") == 0) {
        IS_EXIT = true;
      }
      if (IS_CD || IS_EXIT) {
        IS_INTERNAL = true;
      }
      if (IS_INTERNAL) {
        IS_EXTERNAL = false;
      } 
      /*
        Pipe & Fork Handler (fork_yourself), 
        Set IS_PARENT, IS_CHILD in fork_yourself, and use its return value to 
        determine error
      */

      if (IS_FIRST && IS_ALONE) {
        // No piping        
        
        // Fork and set IS_PARENT, IS_CHILD
        if (!fork_yourself(IS_INTERNAL, IS_ALONE, &IS_PARENT, &IS_CHILD, 
          &child_pid)) { 
          break; 
        }

        // No pipe handling

      } else if (IS_FIRST && IS_NOT_ALONE) {
        // pipe to pipe_right, check for pipe errors & return to prompt 
        // if errors found.
        if (!pipe_creation_handler(&pipe_left, &pipe_right, 1)) {
          fprintf(stderr, "%s: Right-pipe creation error for command %s.\n", 
            SHELL_ERROR_IDENTIFIER, command_name);
          break;
        }
        
        // Fork and set IS_PARENT, IS_CHILD
        if (!fork_yourself(IS_INTERNAL, IS_ALONE, &IS_PARENT, &IS_CHILD, 
          &child_pid)) { 
          break; 
        }

        // parent closes pipe_right_write
        // errors reported by close are inconsequential
        if (IS_PARENT) {
          close(pipe_right[1]);
        } 
        
        // child closes pipe_right_read
        // child duplicates pipe_right_write to stdout, then closes it.          
        // errors reported by close are inconsequential
        if (IS_CHILD) {
          close(pipe_right[0]);
          if (dup2(pipe_right[1], STDOUT_FILENO) == -1) {
            perror(SHELL_ERROR_IDENTIFIER);
            exit(EXIT_FAILURE);
          }
          close(pipe_right[1]);
        }
        
      } else if (IS_LAST && IS_NOT_ALONE) {
        // swap pipe_left/pipe_right
        // no piping        
        pipe_creation_handler(&pipe_left, &pipe_right, 0);                            
        
        // Fork and set IS_PARENT, IS_CHILD        
        if (!fork_yourself(IS_INTERNAL, IS_ALONE, &IS_PARENT, &IS_CHILD, 
          &child_pid)) { 
          break; 
        }

        // parent closees pipe_left_read
        // errors reported by close are inconsequential
        if (IS_PARENT) {
          close(pipe_left[0]);
        }

        // child duplicates pipe_left_read to its stdin, then closes it
        // errors reported by close are inconsequential
        if (IS_CHILD) {
          if (dup2(pipe_left[0], STDIN_FILENO) == -1) {
            perror(SHELL_ERROR_IDENTIFIER);
            exit(EXIT_FAILURE);
          }
          close(pipe_left[0]);
        }

      } else if (IS_MIDDLE && IS_NOT_ALONE) {
        // swap pipe_left/pipe_right
        pipe_creation_handler(&pipe_left, &pipe_right, 0);                            
        // pipe to pipe_right, check for pipe errors & return to prompt if 
        // errors found.        
        if (!pipe_creation_handler(&pipe_left, &pipe_right, 1)) {
          fprintf(stderr, "%s: Right-pipe creation error for command %s.\n", 
            SHELL_ERROR_IDENTIFIER, command_name);
          break;
        }        

        // Fork and set IS_PARENT, IS_CHILD
        if (!fork_yourself(IS_INTERNAL, IS_ALONE, &IS_PARENT, &IS_CHILD, 
          &child_pid)) { 
          break; 
        }

        // parent closes pipe_left_read and pipe_right_write
        // errors reported by close are inconsequential
        if (IS_PARENT) {
          close(pipe_left[0]);
          close(pipe_right[1]);
        }

        // child closes pipe_right_read, duplicates pipe_left_read to stdin,
        // pipe_right_write to stdout, then closes both.
        // errors reported by close are inconsequential
        if (IS_CHILD) {
          close(pipe_right[0]);
          if (dup2(pipe_left[0], STDIN_FILENO) == -1) {
            perror(SHELL_ERROR_IDENTIFIER);
            exit(EXIT_FAILURE);
          }
          if (dup2(pipe_right[1], STDOUT_FILENO) == -1) {
            perror(SHELL_ERROR_IDENTIFIER);
            exit(EXIT_FAILURE);
          }
          close(pipe_left[0]);
          close(pipe_right[1]);
        }

      } else {
        // Unknown case.
        fprintf(stderr, "%s: Unexpected pipe handling case for command %s.\n", 
          SHELL_ERROR_IDENTIFIER, command_name);
        break; 
      }

      /*
        Redirection Handler      
        Set IS_REDIRECTED flag
        Save STDIN/STDOUT/STDERR for later restoration
        This implementation possibly racks up "erroneous file handlers"
        unless dup() removes those on error.
      */       
      IS_REDIRECTED = false;
      if (IS_PARENT && IS_INTERNAL) {        
        if (comms[i].ifile != NULL) {
          IS_REDIRECTED = true;
          ORIGINAL_STDIN = dup(STDIN_FILENO);
          if (ORIGINAL_STDIN == -1) {
            perror(SHELL_ERROR_IDENTIFIER);
            break;
          }
        }
        if (comms[i].ofile != NULL) {
          IS_REDIRECTED = true;
          ORIGINAL_STDOUT = dup(STDOUT_FILENO);
          if (ORIGINAL_STDOUT == -1) {
            perror(SHELL_ERROR_IDENTIFIER);
            break;
          }
        }
        // Not necessary as we do not handle STDERR redirection
        // ORIGINAL_STDERR = dup(STDERR_FILENO);
        // if (ORIGINAL_STDERR == -1) {
        //   perror(SHELL_ERROR_IDENTIFIER);
        //   break;
        // }        

        if (!redirection(comms[i].ifile, comms[i].ofile, comms[i].append)) {
          break;
        }
      } else if (IS_CHILD) {
        IS_REDIRECTED = true;
        if (!redirection(comms[i].ifile, comms[i].ofile, comms[i].append)) {
          break;
        }
      } 

      /*
        Run/Wait Handler
      */       
      
      if(IS_CHILD && IS_INTERNAL){
      	if(!run_internal(IS_CD, IS_EXIT, cwd, comms[i].argv, comms[i].argc)){
      	  exit(EXIT_FAILURE);
	      }	else{
          exit(EXIT_SUCCESS);
        }
      }

      if(IS_CHILD && IS_EXTERNAL){
	      execute(comms[i].argv);
      }

      if(IS_PARENT && IS_INTERNAL && IS_ALONE){
	      run_internal(IS_CD, IS_EXIT, cwd, comms[i].argv, comms[i].argc);
      }

      if(IS_PARENT && IS_INTERNAL && IS_NOT_ALONE){
	      if(!(waiting(child_pid))){
	       break;
	      }
      }

      if(IS_PARENT && IS_EXTERNAL){
	     if(!(waiting(child_pid))){
	       break;
	     }
      }

      /*
        Parent STDIO Reset
        In case of Single Internal Command with Redirection
      */           
      /*
          On failure, MUST EXIT as user can no longer target STDIN or
          see our STDOUT, possibly.
      */
      if (IS_PARENT && IS_INTERNAL && IS_ALONE && IS_REDIRECTED) {
        if (comms[i].ifile != NULL) {
          if (dup2(ORIGINAL_STDIN, STDIN_FILENO) == -1) {
            perror(SHELL_ERROR_IDENTIFIER);
            exit(EXIT_FAILURE);
          }
          close(ORIGINAL_STDIN);
        }
        if (comms[i].ofile != NULL) {
          if (dup2(ORIGINAL_STDOUT, STDOUT_FILENO) == -1) {
            perror(SHELL_ERROR_IDENTIFIER);
            exit(EXIT_FAILURE);
          }
          close(ORIGINAL_STDOUT);
        }
        // Do not need to handle STDERR, we do not support it's redirection
      }

    }
  }
  exit(EXIT_SUCCESS);
}