package command import ( "fmt" "io/ioutil" "os" "strings" ) const ( // DefaultInitName is the default name we use when // initializing the example file DefaultInitName = "example.nomad" ) // InitCommand generates a new job template that you can customize to your // liking, like vagrant init type InitCommand struct { Meta } func (c *InitCommand) Help() string { helpText := ` Usage: nomad init Creates an example job file that can be used as a starting point to customize further. ` return strings.TrimSpace(helpText) } func (c *InitCommand) Synopsis() string { return "Create an example job file" } func (c *InitCommand) Run(args []string) int { // Check for misuse if len(args) != 0 { c.Ui.Error(c.Help()) return 1 } // Check if the file already exists _, err := os.Stat(DefaultInitName) if err != nil && !os.IsNotExist(err) { c.Ui.Error(fmt.Sprintf("Failed to stat '%s': %v", DefaultInitName, err)) return 1 } if !os.IsNotExist(err) { c.Ui.Error(fmt.Sprintf("Job '%s' already exists", DefaultInitName)) return 1 } // Write out the example err = ioutil.WriteFile(DefaultInitName, []byte(defaultJob), 0660) if err != nil { c.Ui.Error(fmt.Sprintf("Failed to write '%s': %v", DefaultInitName, err)) return 1 } // Success c.Ui.Output(fmt.Sprintf("Example job file written to %s", DefaultInitName)) return 0 } var defaultJob = strings.TrimSpace(` # There can only be a single job definition per file. # Create a job with ID and Name 'example' job "example" { # Run the job in the global region, which is the default. # region = "global" # Specify the datacenters within the region this job can run in. datacenters = ["dc1"] # Service type jobs optimize for long-lived services. This is # the default but we can change to batch for short-lived tasks. # type = "service" # Priority controls our access to resources and scheduling priority. # This can be 1 to 100, inclusively, and defaults to 50. # priority = 50 # Restrict our job to only linux. We can specify multiple # constraints as needed. constraint { attribute = "${attr.kernel.name}" value = "linux" } # Configure the job to do rolling updates update { # Stagger updates every 10 seconds stagger = "10s" # Update a single task at a time max_parallel = 1 } # Create a 'cache' group. Each task in the group will be # scheduled onto the same machine. group "cache" { # Control the number of instances of this groups. # Defaults to 1 # count = 1 # Configure the restart policy for the task group. If not provided, a # default is used based on the job type. restart { # The number of attempts to run the job within the specified interval. attempts = 10 interval = "5m" # A delay between a task failing and a restart occuring. delay = "25s" # Mode controls what happens when a task has restarted "attempts" # times within the interval. "delay" mode delays the next restart # till the next interval. "fail" mode does not restart the task if # "attempts" has been hit within the interval. mode = "delay" } # Define a task to run task "redis" { # Use Docker to run the task. driver = "docker" # Configure Docker driver with the image config { image = "redis:latest" port_map { db = 6379 } } service { name = "${TASKGROUP}-redis" tags = ["global", "cache"] port = "db" check { name = "alive" type = "tcp" interval = "10s" timeout = "2s" } } # We must specify the resources required for # this task to ensure it runs on a machine with # enough capacity. resources { cpu = 500 # 500 Mhz memory = 256 # 256MB network { mbits = 10 port "db" { } } } # Specify configuration related to log rotation # logs { # max_files = 10 # max_file_size = 15 # } # Controls the timeout between signalling a task it will be killed # and killing the task. If not set a default is used. # kill_timeout = "20s" } } } `)