利用Nomad构建弹性基础设施: 工作生命周期

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SEP 13 2018?CHRISTIE KOEHLER

This is the third in a series?Building Resilient Infrastructure with Nomad?(Part 1,?Part 2). In this series, we explore how Nomad handles unexpected failures, outages, and routine maintenance of cluster infrastructure, often without operator intervention required.

In this post, we’ll look at how Nomad adds resiliency to your computing infrastructure by providing a consistent workflow for managing the entire job lifecycle, including robust options for updating and migrating jobs that help minimize or even eliminate down time.

Workflow for operating a job

The Nomad?job specification?allows operators to specify a schema for all aspects of running the job. This includes tasks, images, deployment strategy, resources, priorities, constraints, service registrations, secrets, and other information required to deploy the workload.

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The workflow for operating a job has four main steps:

  1. Create or modify the job file according to the?job specification
  2. Plan and review the changes with a Nomad server
  3. Submit the job file to a Nomad server
  4. (Optional) Review job status and logs

When updating a job, there are a number of built-in update strategies which may be defined in the job file. Update strategies help operators safely manage rolling out new versions of the job. Because the job file defines the update strategy (blue/green, rolling updates, etc.), the workflow remains the same regardless of whether this is an initial deployment or an update to an existing job.

The?update?stanza specifies the update strategy Nomad will employ when deploying a new version of that task group. If omitted, rolling updates and canaries are disabled.

Rolling and serial updates

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In the?update?stanza operators specify how many job allocations to update concurrently with?max_parallel. Setting?max_parallel?to 1 tells Nomad to employ a serial upgrade strategy whereby at most one allocation is upgraded at a time. Setting it to a value greater than 1 will enable?parallel upgrades,?whereby multiple allocation are upgrade simultaneously.

Nomad waits for health checks on updated nodes to pass before updating the next set. Use?health_check?to specify the mechanism by which allocation health is determined. The default value is?checks, which tells Nomad to wait until all tasks are running and Consul health checks are passing. Other options are?task_states?(all tasks running and not failed) and?manual?(operator will set health status manually using the HTTP API).

Three parameters specify the conditions under which allocations are considered healthy and their deadline for acquiring that state. Use?min_healthy_time?to specify the minimum time the allocation must be in the healthy state before it is marked as healthy and unblocks further allocations from being updated. Use?healthy_deadline?to specify the deadline in which the allocation must be marked as healthy after which the allocation is automatically transitioned to unhealthy. Finally, use?progress_deadline?to specify the deadline by which an allocation must be marked as healthy. The deadline begins when the first allocation for the deployment is created and is reset whenever an allocation as part of the deployment transitions to a healthy state. If no allocation transitions to the healthy state before the progress deadline, the deployment is marked as failed.

If an allocation that is part of deployment fails, as long as the?progress_deadline?has not been exceeded, Nomad reschedules it according to the parameters in the?reschedule?stanza. This allows Nomad to gracefully handle transient errors specific to a particular node. Nomad will continue to reschedule until the?progress_deadline?is hit at which point the issue is likely with the update itself and the entire deployment is marked as failed.

Use?auto_revert = true?to specify that the job should auto-revert to the last stable version upon deployment failure. A job is marked as stable when all the allocations of its deployment are marked healthy.

The following?update?stanza tells Nomad to perform rolling updates 3 at a time and to wait until all tasks for an allocation are running and their Consul health checks are passing for at least 10 seconds before considering the allocation healthy. It sets a deadline of 5 minutes for an allocation to become healthy, after which Nomad will mark it as unhealthy. And, if any one allocation fails to become healthy after 10 minutes, the entire deployment will be marked as failed and Nomad will auto revert to the last known stable deployment.

job "example" {
  update {
    max_parallel      = 3
    health_check      = "checks"
    min_healthy_time  = "10s"
    healthy_deadline  = "5m"
    progress_deadline = "10m"
    auto_revert       = true
  }
}

For?system?jobs, only?max_parallel?and?stagger?are enforced. The job is updated at a rate of?max_parallel, waiting?stagger?amount of time before the next set of updates.

Canary deployments

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Canary updates?are a useful way to test a new version of a job before beginning a rolling upgrade. The?update?stanza supports setting the number of canaries the job operator would like Nomad to create when the job changes via the?canary?parameter. When the job specification is updated, Nomad creates the canaries without stopping any allocations from the previous version of the job.

This pattern allows operators to achieve higher confidence in the new job version because they can route traffic, examine logs, etc, to determine the new application is performing properly.

When?canary?is set to 1 or more, any changes to the job that would result in destructive updates will cause Nomad to create the specified number of canaries without stopping any previous allocations. Once the operator determines the canaries are healthy, they can be promoted and Nomad will proceed with a rolling update of the remaining allocations at a rate of?max_parallel. Canary promotion can be done manually by an operator, or automated using the APIs.

The following?update?stanza tells Nomad to perform a?canary update?with 1 canary and once that canary has been promoted, to perform rolling updates 3 at a time for remaining allocations.

job "example" {
  update {
    canary       = 1
    max_parallel = 3
  }
}

Blue/green deployments

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Blue/Green deployments?have several other names including Red/Black or A/B, but the concept is generally the same. In a blue/green deployment, there are two versions of the workload deployed. Only one version is active at a time, except during the transition phase from one version to the next. The term "active" tends to mean "receiving traffic" or "in service."

Blue/Green deployments are enabled in Nomad by setting the value of?canary?in the?update?stanza to match that of?count?in the?group?stanza. When these values are the same, instead of doing a rolling upgrade of the existing allocations when a new version of the job is submitted, the new version of the group is deployed along side the existing set. The operator can then verify that the new version of the group is stable. When satisfied they are, the group can be promoted and all allocations for the old versions of the group will be shutdown. Blue-green deployments duplicate the resources required during the upgrade process, but enable very safe deployments as the original version of the group is untouched.

The following?update?stanza tells Nomad to perform a?blue/green update?by launching 3 canary allocations (same number as?count?) while the previous allocations are still running.

group "cache" {
  count = 3
  update {
    canary = 3
  }
}

Nomad’s job lifecycle, including?update, allows operators to minimize disruption to their infrastructure by employing the best update procedure(s) for their situation, be it rolling upgrades, canaries, or blue/green deployments. Operators can mix and match and change deployments types without having to change their cluster management workflow.

Migrating tasks and decommissioning nodes

In?Part 2?of this series, we talked about how Nomad detects when a client node has failed and automatically reschedules jobs the jobs that were running on the failed node.

When you know a node needs to come out of service, you can decommission, or “drain” it with the?node draincommand. This will toggle drain mode for a given node. When a node is marked for draining, Nomad will no longer schedule any tasks on that node and will begin migrating all existing jobs to other nodes. Draining continues until all allocations have migrated off the node or the?deadline?is reached at which point all allocations are force migrated off the node.

Job authors can use the?migrate?stanza to specify Nomad’s strategy for migrating tasks off of draining nodes. Migrate directives only apply to?service?type jobs because batch jobs are generally short-lived and system jobs run on every client node. For jobs with a?count?of 1, it is not necessary to supply a migrate stanza. Because there is only one instance of the job, it will be migrated immediately upon initiating the drain.

Use?max_parallel?to specify the number of allocations that can be migrated at the same time. This number must be less than the total?count?for the group because?count?-?max_parallel?allocations will be left running during migrations. Use?health_check?to specify the mechanism by which allocation health is determined. As with?update?, the default value is?checks, which tells Nomad to wait until all tasks are running and Consul health checks are passing. The other option is?task_states?(all tasks running and not failed). There is no?manual?health check option for?migrate.

Node draining will not continue until replacement allocations have been healthy for their?min_healthy_time?or?healthy_deadline?is reached. This allows a large set of machines to be drained while ensuring that the jobs on those nodes don’t incur any downtime.

The following?migrate?stanza tells Nomad to migrate one allocation at a time, to mark migrated allocations healthy only once all their tasks are running and associated health checks are passing for 10 seconds or more within a 5 minute deadline.

job "example" {
  migrate {
    max_parallel     = 1
    health_check     = "checks"
    min_healthy_time = "10s"
    healthy_deadline = "5m"
  }
}

The?migrate?stanza is for?job authors?to define how their services should be migrated, while the node drain?deadline?is for?system operators?to put hard limits on how long a drain may take.

Node draining is a routine part of cluster maintenance that occurs due to things like server maintenance and operating system upgrades. In a traditional datacenter, operators need to coordinate node maintenance with developers to ensure an outage is not caused. Nomad instead allows developers to control how applications are migrated, so that operators do not need to coordinate tightly when doing cluster maintenance.

For further details, see?Decommissioning Nomad Client Nodes?and?Advanced Node Draining With HashiCorp Nomad.

Summary

In this third post in our series on?Building Resilient Infrastructure with Nomad?(Part 1,?Part 2), we covered how Nomad adds resiliency to your computing infrastructure by providing a consistent workflow for managing the entire job lifecycle, including robust options for deploying updates and migrating jobs that help minimize or even eliminate down time.

The update strategy for jobs is controlled by the?update?stanza of the job file. Operators can configure a number of options for safely managing updates, including: serial and parallel updates, canaries, and blue/green deployments. Nomad gracefully handles transient issues during deployments by automatically rescheduling failed allocations until the deployment’s?progress_deadline?has been met.

The?migrate?stanza enables job authors to specify Nomad’s strategy for migrating tasks off of draining nodes. This helps operators perform cluster maintenance without having to coordinate tightly and to execute the draining of many nodes without incurring downtime.

In the next and final post of this series, we’ll look at how Nomad provides resiliency against data loss, and how to recover from outages.

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