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docs | Job Specification | docs-jobspec-syntax | Learn about the Job specification used to submit jobs to Nomad. |
Job Specification
Jobs can be specified either in HCL or JSON. HCL is meant to strike a balance between human readable and editable, and machine-friendly.
For machine-friendliness, Nomad can also read JSON configurations. In general, we recommend using the HCL syntax.
HCL Syntax
For a detailed description of HCL general syntax, see this guide. Here we cover the details of the Job specification for Nomad:
# Define a job called my-service
job "my-service" {
# Job should run in the US region
region = "us"
# Spread tasks between us-west-1 and us-east-1
datacenters = ["us-west-1", "us-east-1"]
# run this job globally
type = "system"
# Rolling updates should be sequential
update {
stagger = "30s"
max_parallel = 1
}
group "webs" {
# We want 5 web servers
count = 5
# Create a web front end using a docker image
task "frontend" {
driver = "docker"
config {
image = "hashicorp/web-frontend"
}
service {
port = "http"
check {
type = "http"
path = "/health"
interval = "10s"
timeout = "2s"
}
}
env {
DB_HOST = "db01.example.com"
DB_USER = "web"
DB_PASSWORD = "loremipsum"
}
resources {
cpu = 500
memory = 128
network {
mbits = 100
# Request for a dynamic port
port "http" {
}
# Request for a static port
port "https" {
static = 443
}
}
}
}
}
}
This is a fairly simple example job, but demonstrates many of the features and syntax of the job specification. The primary "objects" are the job, task group, and task. Each job file has only a single job, however a job may have multiple task groups, and each task group may have multiple tasks. Task groups are a set of tasks that must be co-located on a machine. Groups with a single task and count of one can be declared outside of a group which is created implicitly.
Constraints can be specified at the job, task group, or task level to restrict where a task is eligible for running. An example constraint looks like:
# Restrict to only nodes running linux
constraint {
attribute = "${attr.kernel.name}"
value = "linux"
}
Jobs can also specify additional metadata at the job, task group, or task level. This metadata is opaque to Nomad and can be used for any purpose, including defining constraints on the metadata. Metadata can be specified by:
# Setup ELB via metadata and setup foo
meta {
foo = "bar"
elb_mode = "tcp"
elb_check_interval = "10s"
}
Syntax Reference
Following is a syntax reference for the possible keys that are supported and their default values if any for each type of object.
Job
The job
object supports the following keys:
-
all_at_once
- Controls if the entire set of tasks in the job must be placed atomically or if they can be scheduled incrementally. This should only be used for special circumstances. Defaults tofalse
. -
constraint
- This can be provided multiple times to define additional constraints. See the constraint reference for more details. -
datacenters
- A list of datacenters in the region which are eligible for task placement. This must be provided, and does not have a default. -
group
- This can be provided multiple times to define additional task groups. See the task group reference for more details. -
meta
- Annotates the job with opaque metadata. -
priority
- Specifies the job priority which is used to prioritize scheduling and access to resources. Must be between 1 and 100 inclusively, and defaults to 50. -
region
- The region to run the job in, defaults to "global". -
task
- This can be specified multiple times to add a task as part of the job. Tasks defined directly in a job are wrapped in a task group of the same name. -
type
- Specifies the job type and switches which scheduler is used. Nomad provides theservice
,system
andbatch
schedulers, and defaults toservice
. To learn more about each scheduler type visit here -
update
- Specifies the task's update strategy. When omitted, rolling updates are disabled. Theupdate
block supports the following keys:-
max_parallel
-max_parallel
is given as an integer value and specifies the number of tasks that can be updated at the same time. -
stagger
-stagger
introduces a delay between sets of task updates and is given as an as a time duration. If stagger is provided as an integer, seconds are assumed. Otherwise the "s", "m", and "h" suffix can be used, such as "30s".
An example
update
block:update { // Update 3 tasks at a time. max_parallel = 3 // Wait 30 seconds between updates. stagger = "30s" }
-
-
periodic
-periodic
allows the job to be scheduled at fixed times, dates or intervals. Theperiodic
block supports the following keys:-
enabled
-enabled
determines whether the periodic job will spawn child jobs.enabled
is defaulted to true if the block is included. -
cron
- A cron expression configuring the interval the job is launched at. Supports predefined expressions such as "@daily" and "@weekly" See here for full documentation of supported cron specs and the predefined expressions. -
prohibit_overlap
-prohibit_overlap
can be set to true to enforce that the periodic job doesn't spawn a new instance of the job if any of the previous jobs are still running. It is defaulted to false.
An example
periodic
block:periodic { // Launch every 15 minutes cron = "*/15 * * * * *" // Do not allow overlapping runs. prohibit_overlap = true }
-
Task Group
The group
object supports the following keys:
-
count
- Specifies the number of the task groups that should be running. Must be positive, defaults to one. -
constraint
- This can be provided multiple times to define additional constraints. See the constraint reference for more details. -
restart
- Specifies the restart policy to be applied to tasks in this group. If omitted, a default policy for batch and non-batch jobs is used based on the job type. See the restart policy reference for more details. -
task
- This can be specified multiple times, to add a task as part of the group. -
meta
- Annotates the task group with opaque metadata.
Task
The task
object supports the following keys:
-
driver
- Specifies the task driver that should be used to run the task. See the driver documentation for what is available. Examples includedocker
,qemu
,java
, andexec
. -
constraint
- This can be provided multiple times to define additional constraints. See the constraint reference for more details. -
config
- A map of key/value configuration passed into the driver to start the task. The details of configurations are specific to each driver. -
service
- Nomad integrates with Consul for service discovery. A service block represents a routable and discoverable service on the network. Nomad automatically registers when a task is started and de-registers it when the task transitons to the dead state. Click here to learn more about services. -
env
- A map of key/value representing environment variables that will be passed along to the running process. Nomad variables are interpreted when set in the environment variable values. See the table of interpreted variables here.For example the below environment map will be reinterpreted:
env { // The value will be interpreted by the client and set to the // correct value. NODE_CLASS = "${nomad.class}" }
-
resources
- Provides the resource requirements of the task. See the resources reference for more details. -
meta
- Annotates the task group with opaque metadata. -
kill_timeout
-kill_timeout
is a time duration that can be specified using thes
,m
, andh
suffixes, such as30s
. It can be used to configure the time between signaling a task it will be killed and actually killing it.
Resources
The resources
object supports the following keys:
-
cpu
- The CPU required in MHz. -
disk
- The disk required in MB. -
iops
- The number of IOPS required given as a weight between 10-1000. -
memory
- The memory required in MB. -
network
- The network required. Details below.
The network
object supports the following keys:
-
mbits
- The number of MBits in bandwidth required. -
port
-port
is a repeatable object that can be used to specify both dynamic ports and reserved ports. It has the following format:port "label" { // If the `static` field is omitted, a dynamic port will be assigned. static = 6539 }
Restart Policy
The restart
object supports the following keys:
-
attempts
-attempts
is the number of restarts allowed in aninterval
. -
interval
-interval
is a time duration that can be specified using thes
,m
, andh
suffixes, such as30s
. Theinterval
begins when the first task starts and ensures that onlyattempts
number of restarts happens within it. If more thanattempts
number of failures happen, behavior is controlled bymode
. -
delay
- A duration to wait before restarting a task. It is specified as a time duration using thes
,m
, andh
suffixes, such as30s
. A random jitter of up to 25% is added to the the delay. -
mode
- Controls the behavior when the task fails more thanattempts
times in an interval. Possible values are listed below:-
delay
-delay
will delay the next restart until the nextinterval
is reached. -
fail
-fail
will not restart the task again.
-
The default batch
restart policy is:
restart {
attempts = 15
delay = "15s"
interval = "168h" # 7 days
mode = "delay"
}
The default non-batch restart policy is:
restart {
interval = "1m"
attempts = 2
delay = "15s"
mode = "delay"
}
Constraint
The constraint
object supports the following keys:
-
attribute
- Specifies the attribute to examine for the constraint. See the table of attributes below. -
operator
- Specifies the comparison operator. Defaults to equality, and can be=
,==
,is
,!=
,not
,>
,>=
,<
,<=
. The ordering is compared lexically. -
value
- Specifies the value to compare the attribute against. This can be a literal value or another attribute. -
version
- Specifies a version constraint against the attribute. This sets the operator toversion
and thevalue
to what is specified. This supports a comma seperated list of constraints, including the pessimistic operator. See the go-version repository for examples. -
regexp
- Specifies a regular expression constraint against the attribute. This sets the operator to "regexp" and thevalue
to the regular expression. -
distinct_hosts
-distinct_hosts
accepts a booleantrue
. The default isfalse
.When
distinct_hosts
istrue
at the Job level, each instance of all task Groups specified in the job is placed on a separate host.When
distinct_hosts
istrue
at the task group level with count > 1, each instance of a task group is placed on a separate host. Different task groups in the same job may be co-scheduled.Tasks within a task group are always co-scheduled.
Interpreted Variables
Certain Nomad variables are interpretable for use in constraints, task environment variables and task arguments. Below is a table documenting the variables that can be interpreted:
Variable | Description |
---|---|
${node.id} | The client node identifier |
${node.datacenter} | The client node datacenter |
${node.name} | The client node name |
${node.class} | The client node class |
${attr.\ | The attribute given by `key` on the client node. |
${meta.\} | The metadata value given by `key` on the client node. |
Below is a table documenting common node attributes:
Attribute | Description |
---|---|
arch | CPU architecture of the client. Examples: `amd64`, `386` |
consul.datacenter | The Consul datacenter of the client node if Consul found |
cpu.numcores | Number of CPU cores on the client |
driver.\ | See the [task drivers](/docs/drivers/index.html) for attribute documentation |
hostname | Hostname of the client |
kernel.name | Kernel of the client. Examples: `linux`, `darwin` |
kernel.version | Version of the client kernel. Examples: `3.19.0-25-generic`, `15.0.0` |
platform.aws.ami-id | On EC2, the AMI ID of the client node |
platform.aws.instance-type | On EC2, the instance type of the client node |
os.name | Operating system of the client. Examples: `ubuntu`, `windows`, `darwin` |
os.version | Version of the client OS |
JSON Syntax
Job files can also be specified in JSON. The conversion is straightforward and self-documented. The downsides of JSON are less human readability and the lack of comments. Otherwise, the two are completely interoperable.
See the API documentation for more details on the JSON structure.