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wanderer🌟 / js-primea-hypervisor



Tree: 1a02908906ad592224398890dbe31da370639340

Files: 1a02908906ad592224398890dbe31da370639340 / tests / index.js

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1const tape = require('tape')
2const AbstractContainer = require('primea-abstract-container')
3const Message = require('primea-message')
4const Hypervisor = require('../')
5const CapsManager = require('../capsManager.js')
6
7const level = require('level-browserify')
8const RadixTree = require('dfinity-radix-tree')
9const db = level('./testdb')
10
11class BaseContainer extends AbstractContainer {
12  onCreation () {}
13  static get typeId () {
14    return 9
15  }
16}
17
18tape('basic', async t => {
19  t.plan(2)
20  let message
21  const expectedState = {
22    '/': Buffer.from('70a9676b7995b108057bd29955e3874401aa5ba7', 'hex')
23  }
24
25  const tree = new RadixTree({
26    db: db
27  })
28
29  class testVMContainer extends BaseContainer {
30    onMessage (m, tag) {
31      t.true(m === message, 'should recive a message')
32    }
33  }
34
35  const hypervisor = new Hypervisor(tree)
36  hypervisor.registerContainer(testVMContainer)
37
38  let rootCap = await hypervisor.createActor(testVMContainer.typeId, new Message())
39
40  message = new Message()
41  hypervisor.send(rootCap, message)
42
43  const stateRoot = await hypervisor.createStateRoot(Infinity)
44  t.deepEquals(stateRoot, expectedState, 'expected root!')
45})
46
47tape('caps manager', async t => {
48  const capsManager = new CapsManager({})
49  const cap = {}
50  capsManager.store('test', cap)
51  const c = capsManager.get('test')
52  t.equals(cap, c)
53  capsManager.delete('test')
54  const empty = capsManager.get('test')
55  t.equals(empty, undefined)
56  t.end()
57})
58
59tape('two communicating actors', async t => {
60  t.plan(2)
61  let message
62  const expectedState = {
63    '/': Buffer.from('fc935489953ed357f06171dd23439d83190b3a1b', 'hex')
64  }
65
66  const tree = new RadixTree({
67    db: db
68  })
69
70  class testVMContainerA extends BaseContainer {
71    onCreation (m) {
72      message = new Message()
73      return this.actor.send(m.caps[0], message)
74    }
75  }
76
77  class testVMContainerB extends BaseContainer {
78    onMessage (m) {
79      t.true(m === message, 'should recive a message')
80    }
81
82    static get typeId () {
83      return 8
84    }
85  }
86
87  const hypervisor = new Hypervisor(tree)
88  hypervisor.registerContainer(testVMContainerA)
89  hypervisor.registerContainer(testVMContainerB)
90
91  let capB = await hypervisor.createActor(testVMContainerB.typeId, new Message())
92  await hypervisor.createActor(testVMContainerA.typeId, new Message({
93    caps: [capB]
94  }))
95
96  const stateRoot = await hypervisor.createStateRoot(Infinity)
97
98  t.deepEquals(stateRoot, expectedState, 'expected root!')
99})
100
101tape('three communicating actors', async t => {
102  t.plan(3)
103  let message
104  const expectedState = {
105    '/': Buffer.from('24855a8efa9af536f0f9b319c05b10d6b7cae6c8', 'hex')
106  }
107
108  const tree = new RadixTree({
109    db: db
110  })
111
112  class testVMContainerA extends BaseContainer {
113    onCreation (m) {
114      message = new Message()
115      return this.actor.send(m.caps[0], message)
116    }
117  }
118
119  class testVMContainerB extends BaseContainer {
120    onMessage (m) {
121      t.true(m === message, 'should recive a message')
122    }
123
124    static get typeId () {
125      return 8
126    }
127  }
128
129  const hypervisor = new Hypervisor(tree)
130  hypervisor.registerContainer(testVMContainerA)
131  hypervisor.registerContainer(testVMContainerB)
132
133  let capB = await hypervisor.createActor(testVMContainerB.typeId, new Message())
134  await hypervisor.createActor(testVMContainerA.typeId, new Message({
135    caps: [capB]
136  }))
137
138  await hypervisor.createActor(testVMContainerA.typeId, new Message({
139    caps: [capB]
140  }))
141
142  const stateRoot = await hypervisor.createStateRoot(Infinity)
143
144  t.deepEquals(stateRoot, expectedState, 'expected root!')
145})
146
147tape('three communicating actors, with tick counting', async t => {
148  t.plan(3)
149  let message
150  const expectedState = {
151    '/': Buffer.from('24855a8efa9af536f0f9b319c05b10d6b7cae6c8', 'hex')
152  }
153
154  const tree = new RadixTree({
155    db: db
156  })
157
158  let ticks = 1
159
160  class testVMContainerA extends BaseContainer {
161    async onCreation (m) {
162      this.actor.incrementTicks(ticks)
163      ticks++
164      message = new Message()
165      await this.actor.send(m.caps[0], message)
166    }
167  }
168
169  class testVMContainerB extends BaseContainer {
170    onMessage (m) {
171      t.true(m, 'should recive a message')
172      return new Promise((resolve, reject) => {
173        setTimeout(resolve, 200)
174      })
175    }
176
177    static get typeId () {
178      return 8
179    }
180  }
181
182  const hypervisor = new Hypervisor(tree)
183  hypervisor.registerContainer(testVMContainerA)
184  hypervisor.registerContainer(testVMContainerB)
185
186  let capB = await hypervisor.createActor(testVMContainerB.typeId, new Message())
187  hypervisor.createActor(testVMContainerA.typeId, new Message({
188    caps: [capB]
189  }))
190
191  await hypervisor.createActor(testVMContainerA.typeId, new Message({
192    caps: [capB]
193  }))
194
195  const stateRoot = await hypervisor.createStateRoot(Infinity)
196
197  t.deepEquals(stateRoot, expectedState, 'expected root!')
198})
199
200tape('response caps', async t => {
201  t.plan(3)
202  let message
203  const expectedState = {
204    '/': Buffer.from('fc935489953ed357f06171dd23439d83190b3a1b', 'hex')
205  }
206
207  const tree = new RadixTree({
208    db: db
209  })
210
211  class testVMContainerA extends BaseContainer {
212    onCreation (m) {
213      message = new Message()
214      message.responseCap = this.actor.mintCap()
215      return this.actor.send(m.caps[0], message)
216    }
217
218    onMessage (m) {
219      t.true(m, 'should recive a response message')
220    }
221  }
222
223  class testVMContainerB extends BaseContainer {
224    onMessage (m) {
225      t.true(m === message, 'should recive a message')
226    }
227
228    static get typeId () {
229      return 8
230    }
231  }
232
233  const hypervisor = new Hypervisor(tree)
234  hypervisor.registerContainer(testVMContainerA)
235  hypervisor.registerContainer(testVMContainerB)
236
237  let capB = await hypervisor.createActor(testVMContainerB.typeId, new Message())
238  await hypervisor.createActor(testVMContainerA.typeId, new Message({
239    caps: [capB]
240  }))
241
242  const stateRoot = await hypervisor.createStateRoot(Infinity)
243
244  t.deepEquals(stateRoot, expectedState, 'expected root!')
245})
246
247tape('response caps for errors', async t => {
248  t.plan(3)
249  let message
250  const expectedState = {
251    '/': Buffer.from('fc935489953ed357f06171dd23439d83190b3a1b', 'hex')
252  }
253
254  const tree = new RadixTree({
255    db: db
256  })
257
258  class testVMContainerA extends BaseContainer {
259    onCreation (m) {
260      message = new Message()
261      message.responseCap = this.actor.mintCap()
262      return this.actor.send(m.caps[0], message)
263    }
264
265    onMessage (m) {
266      t.true(m.data.exceptionError instanceof Error, 'should recive a response message')
267    }
268  }
269
270  class testVMContainerB extends BaseContainer {
271    onMessage (m) {
272      t.true(m === message, 'should recive a message')
273      throw new Error('test error')
274    }
275
276    static get typeId () {
277      return 8
278    }
279  }
280
281  const hypervisor = new Hypervisor(tree)
282  hypervisor.registerContainer(testVMContainerA)
283  hypervisor.registerContainer(testVMContainerB)
284
285  let capB = await hypervisor.createActor(testVMContainerB.typeId, new Message())
286  await hypervisor.createActor(testVMContainerA.typeId, new Message({
287    caps: [capB]
288  }))
289
290  const stateRoot = await hypervisor.createStateRoot(Infinity)
291
292  t.deepEquals(stateRoot, expectedState, 'expected root!')
293})
294
295tape('actor creation', async t => {
296  t.plan(2)
297  let message
298  const expectedState = {
299    '/': Buffer.from('8e809b10d473ef4592dc5c1683e89bc7001e5e3e', 'hex')
300  }
301
302  const tree = new RadixTree({
303    db: db
304  })
305
306  class testVMContainerA extends BaseContainer {
307    onCreation (m) {
308      message = new Message()
309      const cap = this.actor.mintCap()
310      message.caps.push(cap)
311      return this.actor.createActor(testVMContainerB.typeId, message)
312    }
313
314    onMessage (m) {
315      t.equals(m.data, 'test', 'should recive a response message')
316    }
317  }
318
319  class testVMContainerB extends BaseContainer {
320    onCreation (m) {
321      const cap = m.caps[0]
322      return this.actor.send(cap, new Message({data: 'test'}))
323    }
324
325    static get typeId () {
326      return 8
327    }
328  }
329
330  const hypervisor = new Hypervisor(tree)
331  hypervisor.registerContainer(testVMContainerA)
332  hypervisor.registerContainer(testVMContainerB)
333
334  await hypervisor.createActor(testVMContainerA.typeId, new Message())
335
336  const stateRoot = await hypervisor.createStateRoot(Infinity)
337
338  t.deepEquals(stateRoot, expectedState, 'expected root!')
339})
340
341tape('simple message arbiter test', async t => {
342  t.plan(4)
343  const expectedState = {
344    '/': Buffer.from('fc935489953ed357f06171dd23439d83190b3a1b', 'hex')
345  }
346
347  const tree = new RadixTree({
348    db: db
349  })
350
351  class testVMContainerA extends BaseContainer {
352    onCreation (m) {
353      const message1 = new Message({
354        data: 'first'
355      })
356      const message2 = new Message({
357        data: 'second'
358      })
359      const message3 = new Message({
360        data: 'third'
361      })
362      this.actor.send(m.caps[0], message1)
363      this.actor.incrementTicks(1)
364      this.actor.send(m.caps[0], message2)
365      this.actor.incrementTicks(1)
366      return this.actor.send(m.caps[0], message3)
367    }
368  }
369
370  let recMsg = 0
371
372  class testVMContainerB extends BaseContainer {
373    onMessage (m) {
374      if (recMsg === 0) {
375        t.equal(m.data, 'first', 'should recive fist message')
376      } else if (recMsg === 1) {
377        t.equal(m.data, 'second', 'should recive second message')
378      } else {
379        t.equal(m.data, 'third', 'should recive third message')
380      }
381      recMsg++
382    }
383
384    static get typeId () {
385      return 8
386    }
387  }
388
389  const hypervisor = new Hypervisor(tree)
390  hypervisor.registerContainer(testVMContainerA)
391  hypervisor.registerContainer(testVMContainerB)
392
393  let capB = await hypervisor.createActor(testVMContainerB.typeId, new Message())
394  await hypervisor.createActor(testVMContainerA.typeId, new Message({
395    caps: [capB]
396  }))
397
398  const stateRoot = await hypervisor.createStateRoot(Infinity)
399
400  t.deepEquals(stateRoot, expectedState, 'expected root!')
401})
402
403tape('arbiter test for id comparision', async t => {
404  t.plan(4)
405  let message
406  const expectedState = {
407    '/': Buffer.from('0866fe6a6adaf28c51ce99ddfddd49c492e9ce48', 'hex')
408  }
409
410  const tree = new RadixTree({
411    db: db
412  })
413
414  class testVMContainerA extends BaseContainer {
415    onCreation (m) {
416      message = new Message({
417        data: m.data
418      })
419      this.actor.send(m.caps[0], message)
420    }
421  }
422
423  let recMsg = 0
424
425  class testVMContainerB extends BaseContainer {
426    onMessage (m) {
427      if (recMsg === 0) {
428        t.equal(m.data, 'first', 'should recive fist message')
429      } else if (recMsg === 1) {
430        t.equal(m.data, 'second', 'should recive second message')
431      } else {
432        t.equal(m.data, 'third', 'should recive third message')
433      }
434      recMsg++
435
436      return new Promise((resolve, reject) => {
437        setTimeout(resolve, 200)
438      })
439    }
440
441    static get typeId () {
442      return 8
443    }
444  }
445
446  const hypervisor = new Hypervisor(tree)
447  hypervisor.registerContainer(testVMContainerA)
448  hypervisor.registerContainer(testVMContainerB)
449
450  let capB = await hypervisor.createActor(testVMContainerB.typeId, new Message())
451  hypervisor.send(capB, new Message({
452    data: 'first'
453  }))
454  await hypervisor.createActor(testVMContainerA.typeId, new Message({
455    caps: [capB],
456    data: 'second'
457  }))
458
459  await hypervisor.createActor(testVMContainerA.typeId, new Message({
460    caps: [capB],
461    data: 'third'
462  }))
463
464  const stateRoot = await hypervisor.createStateRoot(Infinity)
465
466  t.deepEquals(stateRoot, expectedState, 'expected root!')
467})
468
469tape('basic tagged caps', async t => {
470  t.plan(4)
471  const expectedState = {
472    '/': Buffer.from('ef403643f292108fe9edc1700d80a7bf2402e7a0', 'hex')
473  }
474
475  const tree = new RadixTree({
476    db: db
477  })
478
479  class testVMContainerA extends BaseContainer {
480    async onMessage (m) {
481      t.true(m, 'should recive first message')
482      const rCap = this.actor.mintCap(1)
483      const message = new Message()
484      message.responseCap = rCap
485      await this.actor.send(m.caps[0], message)
486      const rMessage = await this.actor.inbox.nextTaggedMessage([1], 44)
487      t.true(rMessage, 'should recive a response message')
488    }
489  }
490
491  class testVMContainerB extends BaseContainer {
492    onMessage (m) {
493      t.true(m, 'should recive a message')
494    }
495
496    static get typeId () {
497      return 8
498    }
499  }
500
501  const hypervisor = new Hypervisor(tree)
502  hypervisor.registerContainer(testVMContainerA)
503  hypervisor.registerContainer(testVMContainerB)
504
505  let capA = await hypervisor.createActor(testVMContainerA.typeId, new Message())
506  let capB = await hypervisor.createActor(testVMContainerB.typeId, new Message())
507
508  await hypervisor.send(capA, new Message({caps: [capB]}))
509
510  const stateRoot = await hypervisor.createStateRoot(Infinity)
511
512  t.deepEquals(stateRoot, expectedState, 'expected root!')
513})
514
515tape('trying to listen for caps more then once', async t => {
516  t.plan(4)
517  const expectedState = {
518    '/': Buffer.from('ef403643f292108fe9edc1700d80a7bf2402e7a0', 'hex')
519  }
520
521  const tree = new RadixTree({
522    db: db
523  })
524
525  class testVMContainerA extends BaseContainer {
526    async onMessage (m) {
527      t.true(m, 'should recive first message')
528      const rCap = this.actor.mintCap(1)
529      const message = new Message({data: 'first'})
530      message.responseCap = rCap
531      await this.actor.send(m.caps[0], message)
532      const promise = this.actor.inbox.nextTaggedMessage([1], 44)
533      try {
534        await this.actor.inbox.nextTaggedMessage([1], 44)
535      } catch (e) {
536        t.true(e, 'should error if waiting twice')
537      }
538      return promise
539    }
540  }
541
542  class testVMContainerB extends BaseContainer {
543    onMessage (m) {
544      t.true(m, 'should recive a message')
545    }
546
547    static get typeId () {
548      return 8
549    }
550  }
551
552  const hypervisor = new Hypervisor(tree)
553  hypervisor.registerContainer(testVMContainerA)
554  hypervisor.registerContainer(testVMContainerB)
555
556  let capA = await hypervisor.createActor(testVMContainerA.typeId, new Message())
557  let capB = await hypervisor.createActor(testVMContainerB.typeId, new Message())
558
559  await hypervisor.send(capA, new Message({caps: [capB]}))
560
561  const stateRoot = await hypervisor.createStateRoot(Infinity)
562
563  t.deepEquals(stateRoot, expectedState, 'expected root!')
564})
565
566tape('multple messages to restore on waiting for tags', async t => {
567  t.plan(6)
568  const expectedState = {
569    '/': Buffer.from('c2bbd78ee38ecf417f857451bdb06cdba1345b22', 'hex')
570  }
571
572  const tree = new RadixTree({
573    db: db
574  })
575
576  class testVMContainerA extends BaseContainer {
577    async onMessage (m) {
578      t.true(m, 'should recive first message')
579      if (m.caps.length) {
580        const cap1 = this.actor.mintCap(1)
581        const cap2 = this.actor.mintCap(2)
582        const message1 = new Message({
583          data: 'first'
584        })
585        const message2 = new Message({
586          data: 'second'
587        })
588        message1.caps.push(cap1)
589        message2.caps.push(cap2)
590        await Promise.all([
591          this.actor.send(m.caps[0], message1),
592          this.actor.send(m.caps[1], message2)
593        ])
594        const rMessage = await this.actor.inbox.nextTaggedMessage([1, 2], 44)
595        t.true(rMessage, 'should recive a response message')
596      }
597    }
598  }
599
600  class testVMContainerB extends BaseContainer {
601    async onMessage (m) {
602      t.true(m, 'should recive a message')
603      const cap = m.caps[0]
604      this.actor.incrementTicks(1)
605      await this.actor.send(cap, new Message({data: m.data}))
606
607      return new Promise((resolve, reject) => {
608        setTimeout(resolve, 200)
609      })
610    }
611
612    static get typeId () {
613      return 8
614    }
615  }
616
617  const hypervisor = new Hypervisor(tree)
618  hypervisor.registerContainer(testVMContainerA)
619  hypervisor.registerContainer(testVMContainerB)
620
621  let capA = await hypervisor.createActor(testVMContainerA.typeId, new Message())
622  let capB1 = await hypervisor.createActor(testVMContainerB.typeId, new Message())
623  let capB2 = await hypervisor.createActor(testVMContainerB.typeId, new Message())
624
625  await hypervisor.send(capA, new Message({caps: [capB1, capB2]}))
626
627  const stateRoot = await hypervisor.createStateRoot(Infinity)
628
629  t.deepEquals(stateRoot, expectedState, 'expected root!')
630})
631
632tape('multple messages to backup on waiting for tags', async t => {
633  t.plan(6)
634  const expectedState = {
635    '/': Buffer.from('c2bbd78ee38ecf417f857451bdb06cdba1345b22', 'hex')
636  }
637
638  const tree = new RadixTree({
639    db: db
640  })
641
642  class testVMContainerA extends BaseContainer {
643    async onMessage (m) {
644      t.true(m, 'should recive first message')
645      if (m.caps.length) {
646        const cap1 = this.actor.mintCap(1)
647        const cap2 = this.actor.mintCap(2)
648        const message1 = new Message({
649          data: 'first'
650        })
651        const message2 = new Message({
652          data: 'second'
653        })
654        message1.caps.push(cap1)
655        message2.caps.push(cap2)
656        await this.actor.send(m.caps[0], message1)
657        await this.actor.send(m.caps[1], message2)
658        const rMessage = await this.actor.inbox.nextTaggedMessage([1, 2], 44)
659        t.true(rMessage, 'should recive a response message')
660      }
661    }
662  }
663
664  class testVMContainerB extends BaseContainer {
665    async onMessage (m) {
666      t.true(m, 'should recive a message')
667      const cap = m.caps[0]
668      this.actor.incrementTicks(1)
669      await this.actor.send(cap, new Message({data: m.data}))
670
671      return new Promise((resolve, reject) => {
672        setTimeout(resolve, 200)
673      })
674    }
675
676    static get typeId () {
677      return 8
678    }
679  }
680
681  const hypervisor = new Hypervisor(tree)
682  hypervisor.registerContainer(testVMContainerA)
683  hypervisor.registerContainer(testVMContainerB)
684
685  let capA = await hypervisor.createActor(testVMContainerA.typeId, new Message())
686  let capB1 = await hypervisor.createActor(testVMContainerB.typeId, new Message())
687  let capB2 = await hypervisor.createActor(testVMContainerB.typeId, new Message())
688
689  await hypervisor.send(capA, new Message({caps: [capB1, capB2]}))
690
691  const stateRoot = await hypervisor.createStateRoot(Infinity)
692
693  t.deepEquals(stateRoot, expectedState, 'expected root!')
694})
695
696tape('multple messages, but single tag', async t => {
697  t.plan(6)
698  const expectedState = {
699    '/': Buffer.from('c2bbd78ee38ecf417f857451bdb06cdba1345b22', 'hex')
700  }
701
702  const tree = new RadixTree({
703    db: db
704  })
705
706  class testVMContainerA extends BaseContainer {
707    async onMessage (m) {
708      t.true(m, 'should recive first message')
709      if (m.caps.length) {
710        const cap1 = this.actor.mintCap(1)
711        const cap2 = this.actor.mintCap(2)
712        const message1 = new Message({
713          data: 'first'
714        })
715        const message2 = new Message({
716          data: 'second'
717        })
718        message1.caps.push(cap1)
719        message2.caps.push(cap2)
720        await this.actor.send(m.caps[0], message1)
721        await this.actor.send(m.caps[1], message2)
722        const rMessage = await this.actor.inbox.nextTaggedMessage([2], 44)
723        t.true(rMessage, 'should recive a response message')
724      }
725    }
726  }
727
728  class testVMContainerB extends BaseContainer {
729    async onMessage (m) {
730      t.true(m, 'should recive a message')
731      const cap = m.caps[0]
732      this.actor.incrementTicks(1)
733      await this.actor.send(cap, new Message({data: m.data}))
734
735      return new Promise((resolve, reject) => {
736        setTimeout(resolve, 200)
737      })
738    }
739
740    static get typeId () {
741      return 8
742    }
743  }
744
745  const hypervisor = new Hypervisor(tree)
746  hypervisor.registerContainer(testVMContainerA)
747  hypervisor.registerContainer(testVMContainerB)
748
749  let capA = await hypervisor.createActor(testVMContainerA.typeId, new Message())
750  let capB1 = await hypervisor.createActor(testVMContainerB.typeId, new Message())
751  let capB2 = await hypervisor.createActor(testVMContainerB.typeId, new Message())
752
753  await hypervisor.send(capA, new Message({caps: [capB1, capB2]}))
754
755  const stateRoot = await hypervisor.createStateRoot(Infinity)
756
757  t.deepEquals(stateRoot, expectedState, 'expected root!')
758})
759
760tape('deadlock test', async t => {
761  t.plan(7)
762  const expectedState = {
763    '/': Buffer.from('2e8658dc2f616599b4fa622318b86ad6ed809db0', 'hex')
764  }
765
766  const tree = new RadixTree({
767    db: db
768  })
769
770  class testVMContainerA extends BaseContainer {
771    async onMessage (m) {
772      t.true(m, 'should recive first message 1')
773      const rMessage = await this.actor.inbox.nextTaggedMessage([1], 50)
774      t.equals(rMessage, undefined, 'should recive a response message 1')
775    }
776  }
777
778  class testVMContainerB extends BaseContainer {
779    async onMessage (m) {
780      t.true(m, 'should recive first message 2')
781      this.actor.incrementTicks(47)
782      const rMessage = await this.actor.inbox.nextTaggedMessage([1], 1)
783      t.equals(rMessage, undefined, 'should recive a response message 2')
784    }
785
786    static get typeId () {
787      return 8
788    }
789  }
790
791  class testVMContainerC extends BaseContainer {
792    async onMessage (m) {
793      t.true(m, 'should recive first message 3')
794      this.actor.incrementTicks(45)
795      const rMessage = await this.actor.inbox.nextTaggedMessage([1], 1)
796      t.equals(rMessage, undefined, 'should recive a response message 3')
797    }
798
799    static get typeId () {
800      return 7
801    }
802  }
803
804  const hypervisor = new Hypervisor(tree)
805  hypervisor.registerContainer(testVMContainerA)
806  hypervisor.registerContainer(testVMContainerB)
807  hypervisor.registerContainer(testVMContainerC)
808
809  let capA = await hypervisor.createActor(testVMContainerA.typeId, new Message())
810  let capB = await hypervisor.createActor(testVMContainerB.typeId, new Message())
811  let capC = await hypervisor.createActor(testVMContainerC.typeId, new Message())
812
813  await Promise.all([
814    hypervisor.send(capA, new Message()),
815    hypervisor.send(capB, new Message()),
816    hypervisor.send(capC, new Message())
817  ])
818  const stateRoot = await hypervisor.createStateRoot(Infinity)
819  t.deepEquals(stateRoot, expectedState, 'expected root!')
820})
821

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