Skip to content

The elevator project from the course TTK4145 - Real-time Programming at NTNU

Notifications You must be signed in to change notification settings

jhlenes/ElevatorProject

Folders and files

NameName
Last commit message
Last commit date

Latest commit

 

History

37 Commits
 
 
 
 
 
 
 
 
 
 

Repository files navigation

Elevator project

This program implements a distributed fault tolerant elevator system in Go. The program has been developed for three elevators and four floors. However, it also works for an arbitrary amount of elevators and floors.

The key part of this project was making the system robust for all kinds of failures, i.e. an order should never be lost. E.g. If one elevator fails, another elevator should take its orders. The main idea behind this implementation is that the elevators constantly broadcasts their worldview, i.e. the placed orders, over UDP. All online elevators then have access to all the worldviews and can reach consensus without the need for acknowledgements.

This program received full score on the FAT test except for item 2.7 in the specification which was misinterpreted. When only two orders existed in the system, one hall-up and one hall-down on the same floor, the elevator would clear both at the same time instead of waiting for some time to allow new cab orders to be placed. A quick fix for this was applied in the latest commit, but has not yet been tested extensively.

Modules

This program consists of several modules:

definitions

The definitions module contains program wide constants and types.

driver

The driver module, found here, communicates with the hardware.

fsm

The fsm module is an implementation of a finite state machine for the elevator. It sends commands to the driver, gets information about the orders through the scheduler, and also reads from the ordermanager in order to update the button lamps.

main

The main module is the starting point of the program. It initializes the fsm and network modules, and waits for the shutdown signal.

network

The network module is based on this code. It handles the communication between the elevators and forwards the received information to the synchronizer module. It also updates the fsm module with the number of active elevators.

ordermanager

The ordermanager module stores the information about the orders.

scheduler

The scheduler module uses information from the ordermanager to make decisions about what the elevator should do.

synchronizer

The synchronizer module synchronizes the information received over the network with your own information stored in the ordermanager. It also handles reassignment of orders when elevators fail.

Running on the actual hardware

Start the elevator server by calling ElevatorServer on one of the computers on the real time lab.

Running on the simulator

Start the elevator simulator with:

./simElevatorServer --port=<port>

Where <port> is an optional argument specifying the port to start the simulator on.

Compile and run the code

First, make sure you are in the root directory and set the GOPATH variable (needs to be set every time you open a new terminal):

export GOPATH=$(pwd)

Install the code with the following command:

go install elevatorproject/main

Run the code with:

bin/main --id=<id> --port=<port> --addr=<addr>

Where all the command line arguments are optional. <id> is the unique id of the elevator, i.e. an integer in the interval [0, 255]. <port> and <addr> is the port and ip address of the elevator hardware you are connecting to. If the elevator hardware/simulator is connected to the same computer as the elevator code is running on, the default values should work.

Example: running 3 simulators on the same computer

Start the simulators on different ports (in different terminals):

./simElevatorServer
./simElevatorServer --port=15677
./simElevatorServer --port=15777

Then run the elevator code (in different terminals):

bin/main
bin/main --id=1 --port=15677
bin/main --id=2 --port=15777

About

The elevator project from the course TTK4145 - Real-time Programming at NTNU

Resources

Stars

Watchers

Forks

Releases

No releases published

Packages

No packages published

Languages