def test2(self): with Transaction(): with self.assertRaises(AssertionError): self.instance.creator = Actor.objects.create()
def setUp(self): with Transaction(): self.instance = Dummy() self.instance.create_only_test = 1 self.instance.save()
def setUp(self): with Transaction(): Dummy.objects.create()
def test1(self): with Transaction(): with self.assertRaises(AssertionError): self.instance.create_only_test = 2
def test_error_in_nested_transaction(self): with self.assertRaises(AssertionError): with UnitTestTransaction(): with Transaction(): Dummy.objects.create() raise AssertionError
async def _test_tx(self): tx = Transaction(99, TransactionOperation.debit, 'EUR', 999, db=db) self.assertEqual(tx.status, TransactionStatus.draft) await tx.set_status(TransactionStatus.processing) self.assertEqual(tx.status, TransactionStatus.processing)
def test(self): with Transaction(): instance = Dummy.objects.create() with Transaction(): with self.assertRaises(AssertionError): instance.raw = {"kkk": 1}
def testTransaction(self): tx = Transaction() tx.addInput(b'genesis', 0) assert tx.numInputs() == 1 opGenesis = Transaction.Output(5, genesisPublicKey) tx.addOutput(opGenesis.value, opGenesis.address) tx.addOutput(5, alicePublicKey) tx.addOutput(10, bobPublicKey) assert tx.numOutputs() == 3 tx.removeInput(0) assert tx.numInputs() == 0 tx.addInput(b'genesis', 0) signature0 = sign(genesisPrivateKey, tx, 0) tx.addSignature(signature0, 0) tx.finalize()
def test(self): with Transaction(): instance = Dummy.objects.create() with Transaction(): assert Dummy.objects.get(id=instance.id) == instance
def test_revert_patch(self): with Transaction() as tran0: instance = Dummy.objects.create() assert instance.computed["_mjson_revert_patch"] is None assert instance._syncdb_required is True assert instance.status == Status.NEW assert instance.computed["_mjson_revert_patch"] is None assert instance._syncdb_required is False assert instance.status == Status.NORMAL with Transaction() as tran1: instance = Dummy.objects.get(id=instance.id) instance.temp = 1 assert instance.computed["_mjson_revert_patch"] is None instance.save() assert instance.computed["_mjson_revert_patch"] == { "data": { "temp": None }, "computed": {}, "status": Status.NORMAL, "version": 1, "last_transaction": tran0.id, } with Transaction() as tran2: instance = Dummy.objects.get(id=instance.id) instance.temp = 2 instance.save() assert instance.computed["_mjson_revert_patch"] == { "data": { "temp": 1 }, "computed": {}, "status": Status.NORMAL, "version": 2, "last_transaction": tran1.id, } with Transaction() as tran3: instance = Dummy.objects.get(id=instance.id) instance.patent = { "raw": "raw1", "plain": "plain1", "html": "html1" } instance.save() assert instance.computed["_mjson_revert_patch"] == { "data": { "patent": { "raw": None, "plain": None, "html": None } }, "computed": { "patent_summary": { "len": None, "summary": None } }, "status": Status.NORMAL, "version": 3, "last_transaction": tran2.id, } with Transaction() as tran4: instance = Dummy.objects.get(id=instance.id) instance.patent = {"raw": "raw2"} instance.save() assert instance.computed["_mjson_revert_patch"] == { "data": { "patent": { "raw": "raw1", "plain": "plain1", "html": "html1" } }, "computed": {}, "status": Status.NORMAL, "version": 4, "last_transaction": tran3.id, } assert instance.data["patent"] == { "raw": "raw2", "plain": "plain1", "html": "html1" } with Transaction() as tran5: instance = Dummy.objects.get(id=instance.id) instance.patent = {"raw": "raw3"} instance.save() assert instance.computed["_mjson_revert_patch"] == { "data": { "patent": { "raw": "raw2", "plain": "plain1", "html": "html1" } }, "computed": {}, "status": Status.NORMAL, "version": 5, "last_transaction": tran4.id, } assert instance.data["patent"] == { "raw": "raw3", "plain": "plain1", "html": "html1" }
def testTransaction(self): tx = Transaction() tx.addInput(b'genesis', 0) assert tx.numInputs() == 1 opGenesis = Transaction.Output(5, genesisPublicKey) tx.addOutput(opGenesis.value, opGenesis.address) tx.addOutput(5, alicePublicKey) tx.addOutput(10, bobPublicKey) assert tx.numOutputs() == 3 tx.removeInput(0) assert tx.numInputs() == 0 tx.addInput(b'genesis', 0) signature0 = sign(genesisPrivateKey, tx, 0) tx.addSignature(signature0, 0) tx.finalize() print(tx.hash) print(hash(tx.getInput(0))) print(tx.getInput(0).to_dict()) print(hash(tx.getOutput(0))) print(tx.getOutput(0).to_dict()) print(verify(genesisPublicKey, binascii.hexlify(signature0).decode('ascii'), tx.getRawDataToSign(0)))