import { alias, equal, or, and } from '@ember/object/computed'; import { computed } from '@ember/object'; import Model from 'ember-data/model'; import attr from 'ember-data/attr'; import { belongsTo, hasMany } from 'ember-data/relationships'; import { fragmentArray } from 'ember-data-model-fragments/attributes'; const JOB_TYPES = ['service', 'batch', 'system']; export default Model.extend({ region: attr('string'), name: attr('string'), plainId: attr('string'), type: attr('string'), priority: attr('number'), allAtOnce: attr('boolean'), status: attr('string'), statusDescription: attr('string'), createIndex: attr('number'), modifyIndex: attr('number'), // True when the job is the parent periodic or parameterized jobs // Instances of periodic or parameterized jobs are false for both properties periodic: attr('boolean'), parameterized: attr('boolean'), periodicDetails: attr(), parameterizedDetails: attr(), hasChildren: or('periodic', 'parameterized'), parent: belongsTo('job', { inverse: 'children' }), children: hasMany('job', { inverse: 'parent' }), // The parent job name is prepended to child launch job names trimmedName: computed('name', 'parent', function() { return this.get('parent.content') ? this.get('name').replace(/.+?\//, '') : this.get('name'); }), // A composite of type and other job attributes to determine // a better type descriptor for human interpretation rather // than for scheduling. displayType: computed('type', 'periodic', 'parameterized', function() { if (this.get('periodic')) { return 'periodic'; } else if (this.get('parameterized')) { return 'parameterized'; } return this.get('type'); }), // A composite of type and other job attributes to determine // type for templating rather than scheduling templateType: computed( 'type', 'periodic', 'parameterized', 'parent.periodic', 'parent.parameterized', function() { const type = this.get('type'); if (this.get('periodic')) { return 'periodic'; } else if (this.get('parameterized')) { return 'parameterized'; } else if (this.get('parent.periodic')) { return 'periodic-child'; } else if (this.get('parent.parameterized')) { return 'parameterized-child'; } else if (JOB_TYPES.includes(type)) { // Guard against the API introducing a new type before the UI // is prepared to handle it. return this.get('type'); } // A fail-safe in the event the API introduces a new type. return 'service'; } ), datacenters: attr(), taskGroups: fragmentArray('task-group', { defaultValue: () => [] }), summary: belongsTo('job-summary'), // A job model created from the jobs list response will be lacking // task groups. This is an indicator that it needs to be reloaded // if task group information is important. isPartial: equal('taskGroups.length', 0), // If a job has only been loaded through the list request, the task groups // are still unknown. However, the count of task groups is available through // the job-summary model which is embedded in the jobs list response. taskGroupCount: or('taskGroups.length', 'taskGroupSummaries.length'), // Alias through to the summary, as if there was no relationship taskGroupSummaries: alias('summary.taskGroupSummaries'), queuedAllocs: alias('summary.queuedAllocs'), startingAllocs: alias('summary.startingAllocs'), runningAllocs: alias('summary.runningAllocs'), completeAllocs: alias('summary.completeAllocs'), failedAllocs: alias('summary.failedAllocs'), lostAllocs: alias('summary.lostAllocs'), totalAllocs: alias('summary.totalAllocs'), pendingChildren: alias('summary.pendingChildren'), runningChildren: alias('summary.runningChildren'), deadChildren: alias('summary.deadChildren'), totalChildren: alias('summary.totalChildren'), version: attr('number'), versions: hasMany('job-versions'), allocations: hasMany('allocations'), deployments: hasMany('deployments'), evaluations: hasMany('evaluations'), namespace: belongsTo('namespace'), drivers: computed('taskGroups.@each.drivers', function() { return this.get('taskGroups') .mapBy('drivers') .reduce((all, drivers) => { all.push(...drivers); return all; }, []) .uniq(); }), // Getting all unhealthy drivers for a job can be incredibly expensive if the job // has many allocations. This can lead to making an API request for many nodes. unhealthyDrivers: computed('allocations.@each.unhealthyDrivers.[]', function() { return this.get('allocations') .mapBy('unhealthyDrivers') .reduce((all, drivers) => { all.push(...drivers); return all; }, []) .uniq(); }), hasBlockedEvaluation: computed('evaluations.@each.isBlocked', function() { return this.get('evaluations') .toArray() .some(evaluation => evaluation.get('isBlocked')); }), hasPlacementFailures: and('latestFailureEvaluation', 'hasBlockedEvaluation'), latestEvaluation: computed('evaluations.@each.modifyIndex', 'evaluations.isPending', function() { const evaluations = this.get('evaluations'); if (!evaluations || evaluations.get('isPending')) { return null; } return evaluations.sortBy('modifyIndex').get('lastObject'); }), latestFailureEvaluation: computed( 'evaluations.@each.modifyIndex', 'evaluations.isPending', function() { const evaluations = this.get('evaluations'); if (!evaluations || evaluations.get('isPending')) { return null; } const failureEvaluations = evaluations.filterBy('hasPlacementFailures'); if (failureEvaluations) { return failureEvaluations.sortBy('modifyIndex').get('lastObject'); } } ), supportsDeployments: equal('type', 'service'), runningDeployment: computed('deployments.@each.status', function() { return this.get('deployments').findBy('status', 'running'); }), fetchRawDefinition() { return this.store.adapterFor('job').fetchRawDefinition(this); }, forcePeriodic() { return this.store.adapterFor('job').forcePeriodic(this); }, stop() { return this.store.adapterFor('job').stop(this); }, statusClass: computed('status', function() { const classMap = { pending: 'is-pending', running: 'is-primary', dead: 'is-light', }; return classMap[this.get('status')] || 'is-dark'; }), payload: attr('string'), decodedPayload: computed('payload', function() { // Lazily decode the base64 encoded payload return window.atob(this.get('payload') || ''); }), });