open-nomad/ui/tests/unit/components/topo-viz-test.js

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import { module, test } from 'qunit';
import { setupTest } from 'ember-qunit';
import setupGlimmerComponentFactory from 'nomad-ui/tests/helpers/glimmer-factory';
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module('Unit | Component | TopoViz', function (hooks) {
setupTest(hooks);
setupGlimmerComponentFactory(hooks, 'topo-viz');
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test('the topology object properly organizes a tree of datacenters > nodes > allocations', async function (assert) {
const nodes = [
{ datacenter: 'dc1', id: 'node0', resources: {} },
{ datacenter: 'dc2', id: 'node1', resources: {} },
{ datacenter: 'dc1', id: 'node2', resources: {} },
];
const node0Allocs = [
alloc({ nodeId: 'node0', jobId: 'job0', taskGroupName: 'group' }),
alloc({ nodeId: 'node0', jobId: 'job1', taskGroupName: 'group' }),
];
const node1Allocs = [
alloc({ nodeId: 'node1', jobId: 'job0', taskGroupName: 'group' }),
alloc({ nodeId: 'node1', jobId: 'job1', taskGroupName: 'group' }),
];
const node2Allocs = [
alloc({ nodeId: 'node2', jobId: 'job0', taskGroupName: 'group' }),
alloc({ nodeId: 'node2', jobId: 'job1', taskGroupName: 'group' }),
];
const allocations = [...node0Allocs, ...node1Allocs, ...node2Allocs];
const topoViz = this.createComponent({ nodes, allocations });
topoViz.buildTopology();
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assert.deepEqual(topoViz.topology.datacenters.mapBy('name'), [
'dc1',
'dc2',
]);
assert.deepEqual(topoViz.topology.datacenters[0].nodes.mapBy('node'), [
nodes[0],
nodes[2],
]);
assert.deepEqual(topoViz.topology.datacenters[1].nodes.mapBy('node'), [
nodes[1],
]);
assert.deepEqual(
topoViz.topology.datacenters[0].nodes[0].allocations.mapBy('allocation'),
node0Allocs
);
assert.deepEqual(
topoViz.topology.datacenters[1].nodes[0].allocations.mapBy('allocation'),
node1Allocs
);
assert.deepEqual(
topoViz.topology.datacenters[0].nodes[1].allocations.mapBy('allocation'),
node2Allocs
);
});
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test('the topology object contains an allocation index keyed by jobId+taskGroupName', async function (assert) {
const allocations = [
alloc({ nodeId: 'node0', jobId: 'job0', taskGroupName: 'one' }),
alloc({ nodeId: 'node0', jobId: 'job0', taskGroupName: 'one' }),
alloc({ nodeId: 'node0', jobId: 'job0', taskGroupName: 'two' }),
alloc({ nodeId: 'node0', jobId: 'job1', taskGroupName: 'one' }),
alloc({ nodeId: 'node0', jobId: 'job1', taskGroupName: 'two' }),
alloc({ nodeId: 'node0', jobId: 'job1', taskGroupName: 'three' }),
alloc({ nodeId: 'node0', jobId: 'job2', taskGroupName: 'one' }),
alloc({ nodeId: 'node0', jobId: 'job2', taskGroupName: 'one' }),
alloc({ nodeId: 'node0', jobId: 'job2', taskGroupName: 'one' }),
alloc({ nodeId: 'node0', jobId: 'job2', taskGroupName: 'one' }),
];
const nodes = [{ datacenter: 'dc1', id: 'node0', resources: {} }];
const topoViz = this.createComponent({ nodes, allocations });
topoViz.buildTopology();
assert.deepEqual(
Object.keys(topoViz.topology.allocationIndex).sort(),
[
JSON.stringify(['job0', 'one']),
JSON.stringify(['job0', 'two']),
JSON.stringify(['job1', 'one']),
JSON.stringify(['job1', 'two']),
JSON.stringify(['job1', 'three']),
JSON.stringify(['job2', 'one']),
].sort()
);
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Object.keys(topoViz.topology.allocationIndex).forEach((key) => {
const [jobId, group] = JSON.parse(key);
assert.deepEqual(
topoViz.topology.allocationIndex[key].mapBy('allocation'),
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allocations.filter(
(alloc) => alloc.jobId === jobId && alloc.taskGroupName === group
)
);
});
});
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test('isSingleColumn is true when there is only one datacenter', async function (assert) {
const oneDc = [{ datacenter: 'dc1', id: 'node0', resources: {} }];
const twoDc = [...oneDc, { datacenter: 'dc2', id: 'node1', resources: {} }];
const topoViz1 = this.createComponent({ nodes: oneDc, allocations: [] });
const topoViz2 = this.createComponent({ nodes: twoDc, allocations: [] });
topoViz1.buildTopology();
topoViz2.buildTopology();
assert.ok(topoViz1.isSingleColumn);
assert.notOk(topoViz2.isSingleColumn);
});
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test('isSingleColumn is true when there are multiple datacenters with a high variance in node count', async function (assert) {
const uniformDcs = [
{ datacenter: 'dc1', id: 'node0', resources: {} },
{ datacenter: 'dc2', id: 'node1', resources: {} },
];
const skewedDcs = [
{ datacenter: 'dc1', id: 'node0', resources: {} },
{ datacenter: 'dc2', id: 'node1', resources: {} },
{ datacenter: 'dc2', id: 'node2', resources: {} },
{ datacenter: 'dc2', id: 'node3', resources: {} },
{ datacenter: 'dc2', id: 'node4', resources: {} },
];
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const twoColumnViz = this.createComponent({
nodes: uniformDcs,
allocations: [],
});
const oneColumViz = this.createComponent({
nodes: skewedDcs,
allocations: [],
});
twoColumnViz.buildTopology();
oneColumViz.buildTopology();
assert.notOk(twoColumnViz.isSingleColumn);
assert.ok(oneColumViz.isSingleColumn);
});
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test('datacenterIsSingleColumn is only ever false when isSingleColumn is false and the total node count is high', async function (assert) {
const manyUniformNodes = Array(25)
.fill(null)
.map((_, index) => ({
datacenter: index > 12 ? 'dc2' : 'dc1',
id: `node${index}`,
resources: {},
}));
const manySkewedNodes = Array(25)
.fill(null)
.map((_, index) => ({
datacenter: index > 5 ? 'dc2' : 'dc1',
id: `node${index}`,
resources: {},
}));
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const oneColumnViz = this.createComponent({
nodes: manyUniformNodes,
allocations: [],
});
const twoColumnViz = this.createComponent({
nodes: manySkewedNodes,
allocations: [],
});
oneColumnViz.buildTopology();
twoColumnViz.buildTopology();
assert.ok(oneColumnViz.datacenterIsSingleColumn);
assert.notOk(oneColumnViz.isSingleColumn);
assert.notOk(twoColumnViz.datacenterIsSingleColumn);
assert.ok(twoColumnViz.isSingleColumn);
});
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test('dataForAllocation correctly calculates proportion of node utilization and group key', async function (assert) {
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const nodes = [
{ datacenter: 'dc1', id: 'node0', resources: { cpu: 100, memory: 250 } },
];
const allocations = [
alloc({
nodeId: 'node0',
jobId: 'job0',
taskGroupName: 'group',
allocatedResources: { cpu: 50, memory: 25 },
}),
];
const topoViz = this.createComponent({ nodes, allocations });
topoViz.buildTopology();
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assert.equal(
topoViz.topology.datacenters[0].nodes[0].allocations[0].cpuPercent,
0.5
);
assert.equal(
topoViz.topology.datacenters[0].nodes[0].allocations[0].memoryPercent,
0.1
);
});
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test('allocations that reference nonexistent nodes are ignored', async function (assert) {
const nodes = [{ datacenter: 'dc1', id: 'node0', resources: {} }];
const allocations = [
alloc({ nodeId: 'node0', jobId: 'job0', taskGroupName: 'group' }),
alloc({ nodeId: 'node404', jobId: 'job1', taskGroupName: 'group' }),
];
const topoViz = this.createComponent({ nodes, allocations });
topoViz.buildTopology();
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assert.deepEqual(topoViz.topology.datacenters[0].nodes.mapBy('node'), [
nodes[0],
]);
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assert.deepEqual(
topoViz.topology.datacenters[0].nodes[0].allocations.mapBy('allocation'),
[allocations[0]]
);
});
});
function alloc(props) {
return {
...props,
allocatedResources: props.allocatedResources || {},
belongsTo(type) {
return {
id() {
return type === 'job' ? props.jobId : props.nodeId;
},
};
},
};
}