import unittest from allmydata import provisioning ReliabilityModel = None try: from allmydata.reliability import ReliabilityModel except ImportError: pass # might not be importable, since it needs NumPy from nevow import inevow from zope.interface import implements class MyRequest: implements(inevow.IRequest) pass class Provisioning(unittest.TestCase): def getarg(self, name, astype=int): if name in self.fields: return astype(self.fields[name]) return None def test_load(self): pt = provisioning.ProvisioningTool() self.fields = {} #r = MyRequest() #r.fields = self.fields #ctx = RequestContext() #unfilled = pt.renderSynchronously(ctx) lots_of_stan = pt.do_forms(self.getarg) self.failUnless(lots_of_stan is not None) self.fields = {'filled': True, "num_users": 50e3, "files_per_user": 1000, "space_per_user": 1e9, "sharing_ratio": 1.0, "encoding_parameters": "3-of-10-5", "num_servers": 30, "ownership_mode": "A", "download_rate": 100, "upload_rate": 10, "delete_rate": 10, "lease_timer": 7, } #filled = pt.renderSynchronously(ctx) more_stan = pt.do_forms(self.getarg) self.failUnless(more_stan is not None) # trigger the wraparound configuration self.fields["num_servers"] = 5 #filled = pt.renderSynchronously(ctx) more_stan = pt.do_forms(self.getarg) # and other ownership modes self.fields["ownership_mode"] = "B" more_stan = pt.do_forms(self.getarg) self.fields["ownership_mode"] = "E" more_stan = pt.do_forms(self.getarg) def test_provisioning_math(self): self.failUnlessEqual(provisioning.binomial(10, 0), 1) self.failUnlessEqual(provisioning.binomial(10, 1), 10) self.failUnlessEqual(provisioning.binomial(10, 2), 45) self.failUnlessEqual(provisioning.binomial(10, 9), 10) self.failUnlessEqual(provisioning.binomial(10, 10), 1) DAY=24*60*60 MONTH=31*DAY YEAR=365*DAY class Reliability(unittest.TestCase): def test_basic(self): if ReliabilityModel is None: raise unittest.SkipTest("reliability model requires NumPy") # test that numpy math works the way I think it does import numpy decay = numpy.matrix([[1,0,0], [.1,.9,0], [.01,.09,.9], ]) start = numpy.array([0,0,1]) g2 = (start * decay).A[0] self.failUnlessEqual(repr(g2), repr(numpy.array([.01,.09,.9]))) g3 = (g2 * decay).A[0] self.failUnlessEqual(repr(g3), repr(numpy.array([.028,.162,.81]))) # and the dot product recoverable = numpy.array([0,1,1]) P_recoverable_g2 = numpy.dot(g2, recoverable) self.failUnlessAlmostEqual(P_recoverable_g2, .9 + .09) P_recoverable_g3 = numpy.dot(g3, recoverable) self.failUnlessAlmostEqual(P_recoverable_g3, .81 + .162) r = ReliabilityModel.run(delta=100000, report_period=3*MONTH, report_span=5*YEAR) self.failUnlessEqual(len(r.samples), 20) last_row = r.samples[-1] #print last_row (when, unmaintained_shareprobs, maintained_shareprobs, P_repaired_last_check_period, cumulative_number_of_repairs, cumulative_number_of_new_shares, P_dead_unmaintained, P_dead_maintained) = last_row self.failUnless(isinstance(P_repaired_last_check_period, float)) self.failUnless(isinstance(P_dead_unmaintained, float)) self.failUnless(isinstance(P_dead_maintained, float)) self.failUnlessAlmostEqual(P_dead_unmaintained, 0.033591004555395272) self.failUnlessAlmostEqual(P_dead_maintained, 3.2983995819177542e-08) if __name__=='__main__': unittest.main()