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wanderer🌟 / js-primea-hypervisor



Tree: f1da602123429264a1b71fd395efea85c3b7b95e

Files: f1da602123429264a1b71fd395efea85c3b7b95e / tests / index.js

21304 bytesRaw
1const tape = require('tape')
2const AbstractContainer = require('primea-abstract-container')
3const Message = require('primea-message')
4const Hypervisor = require('../')
5const CapsStore = require('../capsStore.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 CapsStore({})
49  const cap = {}
50  capsManager.store('test', cap)
51  const c = capsManager.load('test')
52  t.equals(cap, c)
53  capsManager.delete('test')
54  const empty = capsManager.load('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      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      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      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    }
173
174    static get typeId () {
175      return 8
176    }
177  }
178
179  const hypervisor = new Hypervisor(tree)
180  hypervisor.registerContainer(testVMContainerA)
181  hypervisor.registerContainer(testVMContainerB)
182
183  let capB = await hypervisor.createActor(testVMContainerB.typeId, new Message())
184  await hypervisor.createActor(testVMContainerA.typeId, new Message({
185    caps: [capB]
186  }))
187
188  await hypervisor.createActor(testVMContainerA.typeId, new Message({
189    caps: [capB]
190  }))
191
192  const stateRoot = await hypervisor.createStateRoot(Infinity)
193
194  t.deepEquals(stateRoot, expectedState, 'expected root!')
195})
196
197tape('response caps', async t => {
198  t.plan(3)
199  let message
200  const expectedState = {
201    '/': Buffer.from('fc935489953ed357f06171dd23439d83190b3a1b', 'hex')
202  }
203
204  const tree = new RadixTree({
205    db: db
206  })
207
208  class testVMContainerA extends BaseContainer {
209    onCreation (m) {
210      message = new Message()
211      message.responseCap = this.actor.mintCap()
212      this.actor.send(m.caps[0], message)
213    }
214
215    onMessage (m) {
216      t.true(m, 'should recive a response message')
217    }
218  }
219
220  class testVMContainerB extends BaseContainer {
221    onMessage (m) {
222      t.true(m === message, 'should recive a message')
223    }
224
225    static get typeId () {
226      return 8
227    }
228  }
229
230  const hypervisor = new Hypervisor(tree)
231  hypervisor.registerContainer(testVMContainerA)
232  hypervisor.registerContainer(testVMContainerB)
233
234  let capB = await hypervisor.createActor(testVMContainerB.typeId, new Message())
235  await hypervisor.createActor(testVMContainerA.typeId, new Message({
236    caps: [capB]
237  }))
238
239  const stateRoot = await hypervisor.createStateRoot(Infinity)
240
241  t.deepEquals(stateRoot, expectedState, 'expected root!')
242})
243
244tape('response caps for errors', async t => {
245  t.plan(3)
246  let message
247  const expectedState = {
248    '/': Buffer.from('fc935489953ed357f06171dd23439d83190b3a1b', 'hex')
249  }
250
251  const tree = new RadixTree({
252    db: db
253  })
254
255  class testVMContainerA extends BaseContainer {
256    onCreation (m) {
257      message = new Message()
258      message.responseCap = this.actor.mintCap()
259      this.actor.send(m.caps[0], message)
260    }
261
262    onMessage (m) {
263      t.true(m.data.exceptionError instanceof Error, 'should recive a response message')
264    }
265  }
266
267  class testVMContainerB extends BaseContainer {
268    onMessage (m) {
269      t.true(m === message, 'should recive a message')
270      throw new Error('test error')
271    }
272
273    static get typeId () {
274      return 8
275    }
276  }
277
278  const hypervisor = new Hypervisor(tree)
279  hypervisor.registerContainer(testVMContainerA)
280  hypervisor.registerContainer(testVMContainerB)
281
282  let capB = await hypervisor.createActor(testVMContainerB.typeId, new Message())
283  await hypervisor.createActor(testVMContainerA.typeId, new Message({
284    caps: [capB]
285  }))
286
287  const stateRoot = await hypervisor.createStateRoot(Infinity)
288
289  t.deepEquals(stateRoot, expectedState, 'expected root!')
290})
291
292tape('actor creation', async t => {
293  t.plan(2)
294  let message
295  const expectedState = {
296    '/': Buffer.from('8e809b10d473ef4592dc5c1683e89bc7001e5e3e', 'hex')
297  }
298
299  const tree = new RadixTree({
300    db: db
301  })
302
303  class testVMContainerA extends BaseContainer {
304    onCreation (m) {
305      message = new Message()
306      const cap = this.actor.mintCap()
307      message.caps.push(cap)
308      return this.actor.createActor(testVMContainerB.typeId, message)
309    }
310
311    onMessage (m) {
312      t.equals(m.data, 'test', 'should recive a response message')
313    }
314  }
315
316  class testVMContainerB extends BaseContainer {
317    onCreation (m) {
318      const cap = m.caps[0]
319      this.actor.send(cap, new Message({data: 'test'}))
320    }
321
322    static get typeId () {
323      return 8
324    }
325  }
326
327  const hypervisor = new Hypervisor(tree)
328  hypervisor.registerContainer(testVMContainerA)
329  hypervisor.registerContainer(testVMContainerB)
330
331  await hypervisor.createActor(testVMContainerA.typeId, new Message())
332
333  const stateRoot = await hypervisor.createStateRoot(Infinity)
334
335  t.deepEquals(stateRoot, expectedState, 'expected root!')
336})
337
338tape('simple message arbiter test', async t => {
339  t.plan(4)
340  const expectedState = {
341    '/': Buffer.from('fc935489953ed357f06171dd23439d83190b3a1b', 'hex')
342  }
343
344  const tree = new RadixTree({
345    db: db
346  })
347
348  class testVMContainerA extends BaseContainer {
349    onCreation (m) {
350      const message1 = new Message({
351        data: 'first'
352      })
353      const message2 = new Message({
354        data: 'second'
355      })
356      const message3 = new Message({
357        data: 'third'
358      })
359      this.actor.send(m.caps[0], message1)
360      this.actor.incrementTicks(1)
361      this.actor.send(m.caps[0], message2)
362      this.actor.incrementTicks(1)
363      this.actor.send(m.caps[0], message3)
364    }
365  }
366
367  let recMsg = 0
368
369  class testVMContainerB extends BaseContainer {
370    onMessage (m) {
371      if (recMsg === 0) {
372        t.equal(m.data, 'first', 'should recive fist message')
373      } else if (recMsg === 1) {
374        t.equal(m.data, 'second', 'should recive second message')
375      } else {
376        t.equal(m.data, 'third', 'should recive third message')
377      }
378      recMsg++
379    }
380
381    static get typeId () {
382      return 8
383    }
384  }
385
386  const hypervisor = new Hypervisor(tree)
387  hypervisor.registerContainer(testVMContainerA)
388  hypervisor.registerContainer(testVMContainerB)
389
390  let capB = await hypervisor.createActor(testVMContainerB.typeId, new Message())
391  await hypervisor.createActor(testVMContainerA.typeId, new Message({
392    caps: [capB]
393  }))
394
395  const stateRoot = await hypervisor.createStateRoot(Infinity)
396
397  t.deepEquals(stateRoot, expectedState, 'expected root!')
398})
399
400tape('arbiter test for id comparision', async t => {
401  t.plan(4)
402  let message
403  const expectedState = {
404    '/': Buffer.from('0866fe6a6adaf28c51ce99ddfddd49c492e9ce48', 'hex')
405  }
406
407  const tree = new RadixTree({
408    db: db
409  })
410
411  class testVMContainerA extends BaseContainer {
412    onCreation (m) {
413      message = new Message({
414        data: m.data
415      })
416      this.actor.send(m.caps[0], message)
417    }
418  }
419
420  let recMsg = 0
421
422  class testVMContainerB extends BaseContainer {
423    onMessage (m) {
424      if (recMsg === 0) {
425        t.equal(m.data, 'first', 'should recive fist message')
426      } else if (recMsg === 1) {
427        t.equal(m.data, 'second', 'should recive second message')
428      } else {
429        t.equal(m.data, 'third', 'should recive third message')
430      }
431      recMsg++
432    }
433
434    static get typeId () {
435      return 8
436    }
437  }
438
439  const hypervisor = new Hypervisor(tree)
440  hypervisor.registerContainer(testVMContainerA)
441  hypervisor.registerContainer(testVMContainerB)
442
443  let capB = await hypervisor.createActor(testVMContainerB.typeId, new Message())
444  await hypervisor.send(capB, new Message({
445    data: 'first'
446  }))
447
448  await hypervisor.createActor(testVMContainerA.typeId, new Message({
449    caps: [capB],
450    data: 'second'
451  }))
452
453  await hypervisor.createActor(testVMContainerA.typeId, new Message({
454    caps: [capB],
455    data: 'third'
456  }))
457
458  const stateRoot = await hypervisor.createStateRoot(Infinity)
459
460  t.deepEquals(stateRoot, expectedState, 'expected root!')
461})
462
463tape('basic tagged caps', async t => {
464  t.plan(4)
465  const expectedState = {
466    '/': Buffer.from('ef403643f292108fe9edc1700d80a7bf2402e7a0', 'hex')
467  }
468
469  const tree = new RadixTree({
470    db: db
471  })
472
473  class testVMContainerA extends BaseContainer {
474    async onMessage (m) {
475      t.true(m, 'should recive first message')
476      const rCap = this.actor.mintCap(1)
477      const message = new Message()
478      message.responseCap = rCap
479      this.actor.send(m.caps[0], message)
480      const rMessage = await this.actor.inbox.nextTaggedMessage([1], 44)
481      t.true(rMessage, 'should recive a response message')
482    }
483  }
484
485  class testVMContainerB extends BaseContainer {
486    onMessage (m) {
487      t.true(m, 'should recive a message')
488    }
489
490    static get typeId () {
491      return 8
492    }
493  }
494
495  const hypervisor = new Hypervisor(tree)
496  hypervisor.registerContainer(testVMContainerA)
497  hypervisor.registerContainer(testVMContainerB)
498
499  let capA = await hypervisor.createActor(testVMContainerA.typeId, new Message())
500  let capB = await hypervisor.createActor(testVMContainerB.typeId, new Message())
501
502  await hypervisor.send(capA, new Message({caps: [capB]}))
503
504  const stateRoot = await hypervisor.createStateRoot(Infinity)
505
506  t.deepEquals(stateRoot, expectedState, 'expected root!')
507})
508
509tape('trying to listen for caps more then once', async t => {
510  t.plan(4)
511  const expectedState = {
512    '/': Buffer.from('ef403643f292108fe9edc1700d80a7bf2402e7a0', 'hex')
513  }
514
515  const tree = new RadixTree({
516    db: db
517  })
518
519  class testVMContainerA extends BaseContainer {
520    async onMessage (m) {
521      t.true(m, 'should recive first message')
522      const rCap = this.actor.mintCap(1)
523      const message = new Message({data: 'first'})
524      message.responseCap = rCap
525      this.actor.send(m.caps[0], message)
526      const promise = this.actor.inbox.nextTaggedMessage([1], 44)
527      try {
528        await this.actor.inbox.nextTaggedMessage([1], 44)
529      } catch (e) {
530        t.true(e, 'should error if waiting twice')
531      }
532      return promise
533    }
534  }
535
536  class testVMContainerB extends BaseContainer {
537    onMessage (m) {
538      t.true(m, 'should recive a message')
539    }
540
541    static get typeId () {
542      return 8
543    }
544  }
545
546  const hypervisor = new Hypervisor(tree)
547  hypervisor.registerContainer(testVMContainerA)
548  hypervisor.registerContainer(testVMContainerB)
549
550  let capA = await hypervisor.createActor(testVMContainerA.typeId, new Message())
551  let capB = await hypervisor.createActor(testVMContainerB.typeId, new Message())
552
553  await hypervisor.send(capA, new Message({caps: [capB]}))
554
555  const stateRoot = await hypervisor.createStateRoot(Infinity)
556
557  t.deepEquals(stateRoot, expectedState, 'expected root!')
558})
559
560tape('multple messages to restore on waiting for tags', async t => {
561  t.plan(6)
562  const expectedState = {
563    '/': Buffer.from('c2bbd78ee38ecf417f857451bdb06cdba1345b22', 'hex')
564  }
565
566  const tree = new RadixTree({
567    db: db
568  })
569
570  class testVMContainerA extends BaseContainer {
571    async onMessage (m) {
572      t.true(m, 'should recive first message')
573      if (m.caps.length) {
574        const cap1 = this.actor.mintCap(1)
575        const cap2 = this.actor.mintCap(2)
576        const message1 = new Message({
577          data: 'first'
578        })
579        const message2 = new Message({
580          data: 'second'
581        })
582        message1.caps.push(cap1)
583        message2.caps.push(cap2)
584        this.actor.send(m.caps[0], message1)
585        this.actor.send(m.caps[1], message2)
586        const rMessage = await this.actor.inbox.nextTaggedMessage([1, 2], 44)
587        t.true(rMessage, 'should recive a response message')
588      }
589    }
590  }
591
592  class testVMContainerB extends BaseContainer {
593    onMessage (m) {
594      t.true(m, 'should recive a message')
595      const cap = m.caps[0]
596      this.actor.incrementTicks(1)
597      this.actor.send(cap, new Message({data: m.data}))
598    }
599
600    static get typeId () {
601      return 8
602    }
603  }
604
605  const hypervisor = new Hypervisor(tree)
606  hypervisor.registerContainer(testVMContainerA)
607  hypervisor.registerContainer(testVMContainerB)
608
609  let capA = await hypervisor.createActor(testVMContainerA.typeId, new Message())
610  let capB1 = await hypervisor.createActor(testVMContainerB.typeId, new Message())
611  let capB2 = await hypervisor.createActor(testVMContainerB.typeId, new Message())
612
613  await hypervisor.send(capA, new Message({caps: [capB1, capB2]}))
614
615  const stateRoot = await hypervisor.createStateRoot(Infinity)
616
617  t.deepEquals(stateRoot, expectedState, 'expected root!')
618})
619
620tape('multple messages to backup on waiting for tags', async t => {
621  t.plan(6)
622  const expectedState = {
623    '/': Buffer.from('c2bbd78ee38ecf417f857451bdb06cdba1345b22', 'hex')
624  }
625
626  const tree = new RadixTree({
627    db: db
628  })
629
630  class testVMContainerA extends BaseContainer {
631    async onMessage (m) {
632      t.true(m, 'should recive first message')
633      if (m.caps.length) {
634        const cap1 = this.actor.mintCap(1)
635        const cap2 = this.actor.mintCap(2)
636        const message1 = new Message({
637          data: 'first'
638        })
639        const message2 = new Message({
640          data: 'second'
641        })
642        message1.caps.push(cap1)
643        message2.caps.push(cap2)
644        this.actor.send(m.caps[0], message1)
645        this.actor.send(m.caps[1], message2)
646        const rMessage = await this.actor.inbox.nextTaggedMessage([1, 2], 44)
647        t.true(rMessage, 'should recive a response message')
648      }
649    }
650  }
651
652  class testVMContainerB extends BaseContainer {
653    async onMessage (m) {
654      t.true(m, 'should recive a message')
655      const cap = m.caps[0]
656      this.actor.incrementTicks(1)
657      this.actor.send(cap, new Message({data: m.data}))
658    }
659
660    static get typeId () {
661      return 8
662    }
663  }
664
665  const hypervisor = new Hypervisor(tree)
666  hypervisor.registerContainer(testVMContainerA)
667  hypervisor.registerContainer(testVMContainerB)
668
669  let capA = await hypervisor.createActor(testVMContainerA.typeId, new Message())
670  let capB1 = await hypervisor.createActor(testVMContainerB.typeId, new Message())
671  let capB2 = await hypervisor.createActor(testVMContainerB.typeId, new Message())
672
673  await hypervisor.send(capA, new Message({caps: [capB1, capB2]}))
674
675  const stateRoot = await hypervisor.createStateRoot(Infinity)
676
677  t.deepEquals(stateRoot, expectedState, 'expected root!')
678})
679
680tape('multple messages, but single tag', async t => {
681  t.plan(6)
682  const expectedState = {
683    '/': Buffer.from('c2bbd78ee38ecf417f857451bdb06cdba1345b22', 'hex')
684  }
685
686  const tree = new RadixTree({
687    db: db
688  })
689
690  class testVMContainerA extends BaseContainer {
691    async onMessage (m) {
692      t.true(m, 'should recive first message')
693      if (m.caps.length) {
694        const cap1 = this.actor.mintCap(1)
695        const cap2 = this.actor.mintCap(2)
696        const message1 = new Message({
697          data: 'first'
698        })
699        const message2 = new Message({
700          data: 'second'
701        })
702        message1.caps.push(cap1)
703        message2.caps.push(cap2)
704        await this.actor.send(m.caps[0], message1)
705        await this.actor.send(m.caps[1], message2)
706        const rMessage = await this.actor.inbox.nextTaggedMessage([2], 44)
707        t.true(rMessage, 'should recive a response message')
708      }
709    }
710  }
711
712  class testVMContainerB extends BaseContainer {
713    async onMessage (m) {
714      t.true(m, 'should recive a message')
715      const cap = m.caps[0]
716      this.actor.incrementTicks(1)
717      this.actor.send(cap, new Message({data: m.data}))
718    }
719
720    static get typeId () {
721      return 8
722    }
723  }
724
725  const hypervisor = new Hypervisor(tree)
726  hypervisor.registerContainer(testVMContainerA)
727  hypervisor.registerContainer(testVMContainerB)
728
729  let capA = await hypervisor.createActor(testVMContainerA.typeId, new Message())
730  let capB1 = await hypervisor.createActor(testVMContainerB.typeId, new Message())
731  let capB2 = await hypervisor.createActor(testVMContainerB.typeId, new Message())
732
733  await hypervisor.send(capA, new Message({caps: [capB1, capB2]}))
734
735  const stateRoot = await hypervisor.createStateRoot(Infinity)
736
737  t.deepEquals(stateRoot, expectedState, 'expected root!')
738})
739
740tape('deadlock test', async t => {
741  t.plan(7)
742  const expectedState = {
743    '/': Buffer.from('2e8658dc2f616599b4fa622318b86ad6ed809db0', 'hex')
744  }
745
746  const tree = new RadixTree({
747    db: db
748  })
749
750  class testVMContainerA extends BaseContainer {
751    async onMessage (m) {
752      t.true(m, 'should recive first message 1')
753      const rMessage = await this.actor.inbox.nextTaggedMessage([1], 50)
754      t.equals(rMessage, undefined, 'should recive a response message 1')
755    }
756  }
757
758  class testVMContainerB extends BaseContainer {
759    async onMessage (m) {
760      t.true(m, 'should recive first message 2')
761      this.actor.incrementTicks(47)
762      const rMessage = await this.actor.inbox.nextTaggedMessage([1], 1)
763      t.equals(rMessage, undefined, 'should recive a response message 2')
764    }
765
766    static get typeId () {
767      return 8
768    }
769  }
770
771  class testVMContainerC extends BaseContainer {
772    async onMessage (m) {
773      t.true(m, 'should recive first message 3')
774      this.actor.incrementTicks(45)
775      const rMessage = await this.actor.inbox.nextTaggedMessage([1], 1)
776      t.equals(rMessage, undefined, 'should recive a response message 3')
777    }
778
779    static get typeId () {
780      return 7
781    }
782  }
783
784  const hypervisor = new Hypervisor(tree)
785  hypervisor.registerContainer(testVMContainerA)
786  hypervisor.registerContainer(testVMContainerB)
787  hypervisor.registerContainer(testVMContainerC)
788
789  let capA = await hypervisor.createActor(testVMContainerA.typeId, new Message())
790  let capB = await hypervisor.createActor(testVMContainerB.typeId, new Message())
791  let capC = await hypervisor.createActor(testVMContainerC.typeId, new Message())
792
793  await Promise.all([
794    hypervisor.send(capA, new Message()),
795    hypervisor.send(capB, new Message()),
796    hypervisor.send(capC, new Message())
797  ])
798  const stateRoot = await hypervisor.createStateRoot(Infinity)
799  t.deepEquals(stateRoot, expectedState, 'expected root!')
800})
801

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