constraint Block
Placement | job -> constraint job -> group -> constraint job -> group -> task -> constraint |
The constraint
allows restricting the set of eligible nodes. Constraints may
filter on attributes or client metadata.
Additionally constraints may be specified at the job, group, or
task levels for ultimate flexibility.
Warning
It is possible to define irreconcilable constraints in a job.
For example, specifying different ${attr.unique.hostname}
constraints at the task level will cause a job to be unplaceable because all
tasks within a group are scheduled on the same client node.
job "docs" { # All tasks in this job must run on linux. constraint { attribute = "${attr.kernel.name}" value = "linux" } group "example" { # All groups in this job should be scheduled on different hosts. constraint { operator = "distinct_hosts" value = "true" } task "server" { # All tasks must run where "my_custom_value" is greater than 3. constraint { attribute = "${meta.my_custom_value}" operator = ">" value = "3" } } }}
Placing constraints at both the job level and at the group level is redundant since constraints are applied hierarchically. The job constraints will affect all groups (and tasks) in the job.
constraint
Parameters
attribute
(string: "")
- Specifies the name or reference of the attribute to examine for the constraint. This can be any of the Nomad interpolated values.operator
(string: "=")
- Specifies the comparison operator. If the operator is one of>, >=, <, <=
, the ordering is compared numerically if the operands are both integers or both floats, and lexically otherwise. Possible values include:=!=>>=<<=distinct_hostsdistinct_propertyregexpset_containsset_contains_anyversionsemveris_setis_not_set
For a detailed explanation of these values and their behavior, please see the operator values section.
value
(string: "")
- Specifies the value to compare the attribute against using the specified operation. This can be a literal value, another attribute, or any Nomad interpolated values.
operator
Values
This section details the specific values for the "operator" parameter in the Nomad job specification for constraints. The operator is always specified as a string, but the string can take on different values which change the behavior of the overall constraint evaluation.
constraint { operator = "..."}
"distinct_hosts"
- Instructs the scheduler to not co-locate any groups on the same machine. When specified as a job constraint, it applies to all groups in the job. When specified as a group constraint, the effect is constrained to that group. This constraint can not be specified at the task level. Note that theattribute
parameter should be omitted when using this constraint.constraint { operator = "distinct_hosts" value = "true"}
The constraint may also be specified as follows for a more compact representation:
constraint { distinct_hosts = true}
"distinct_property"
- Instructs the scheduler to select nodes that have a distinct value of the specified property. Thevalue
parameter specifies how many allocations are allowed to share the value of a property. Thevalue
must be 1 or greater and if omitted, defaults to 1. When specified as a job constraint, it applies to all groups in the job. When specified as a group constraint, the effect is constrained to that group. This constraint can not be specified at the task level.constraint { operator = "distinct_property" attribute = "${meta.rack}" value = "3"}
The constraint may also be specified as follows for a more compact representation:
constraint { distinct_property = "${meta.rack}" value = "3"}
"regexp"
- Specifies a regular expression constraint against the attribute. The syntax of the regular expressions accepted is the same general syntax used by Perl, Python, and many other languages. More precisely, it is the syntax accepted by RE2 and described at in the Google RE2 syntax.constraint { attribute = "..." operator = "regexp" value = "[a-z0-9]"}
"set_contains"
- Specifies a contains constraint against the attribute. The attribute and the list being checked are split using commas. This will check that the given attribute contains all of the specified elements.constraint { attribute = "..." operator = "set_contains" value = "a,b,c"}
"set_contains_any"
- Specifies a contains constraint against the attribute. The attribute and the list being checked are split using commas. This will check that the given attribute contains any of the specified elements.constraint { attribute = "..." operator = "set_contains_any" value = "a,b,c"}
"version"
- Specifies a version constraint against the attribute. This supports a comma-separated list of constraints, including the pessimistic operator.version
will not consider a prerelease (eg1.6.0-beta
) sufficient to match a non-prerelease constraint (eg>= 1.0
). Use thesemver
constraint for strict Semantic Versioning 2.0 ordering. For more examples please see the go-version repository for more specific examples.constraint { attribute = "..." operator = "version" value = ">= 0.1.0, < 0.2"}
"semver"
- Specifies a version constraint against the attribute. Only Semantic Versioning 2.0 compliant versions and comparison operators are supported, so there is no pessimistic operator. Unlikeversion
, this operator considers prereleases (eg1.6.0-beta
) sufficient to satisfy non-prerelease constraints (eg>= 1.0
). Added in Nomad v0.10.2.constraint { attribute = "..." operator = "semver" value = ">= 0.1.0, < 0.2"}
"is_set"
- Specifies that a given attribute must be present. This can be combined with the"!="
operator to require that an attribute has been set before checking for equality. The default behavior for"!="
is to include nodes that don't have that attribute set."is_not_set"
- Specifies that a given attribute must not be present.
constraint
Examples
The following examples only show the constraint
blocks. Remember that the
constraint
block is only valid in the placements listed above.
Kernel Data
This example restricts the task to running on nodes which have a kernel version higher than "3.19".
constraint { attribute = "${attr.kernel.version}" operator = "version" value = "> 3.19"}
Distinct Property
A potential use case of the distinct_property
constraint is to spread a
service with count > 1
across racks to minimize correlated failure. Nodes can
be annotated with which rack they are on using custom client
metadata with values such as "rack-12-1", "rack-12-2", etc.
The following constraint would assure that an individual rack is not running
more than 2 instances of the task group.
constraint { distinct_property = "${meta.rack}" value = "2"}
Operating Systems
This example restricts the task to running on nodes that are running Ubuntu 14.04
constraint { attribute = "${attr.os.name}" value = "ubuntu"} constraint { attribute = "${attr.os.version}" value = "14.04"}
Cloud Metadata
When possible, Nomad populates node attributes from the cloud environment. These values are accessible as filters in constraints. This example constrains this task to only run on nodes that are memory-optimized on AWS.
constraint { attribute = "${attr.platform.aws.instance-type}" value = "m4.xlarge"}
User-Specified Metadata
This example restricts the task to running on nodes where the binaries for redis, cypress, and nginx are all cached locally. This particular example is utilizing custom client metadata.
constraint { attribute = "${meta.cached_binaries}" set_contains = "redis,cypress,nginx"}