Esempio n. 1
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    def test_register_piece_no_editions(self):
        # create piece
        piece, editions = self.create_piece(self.user1,
                                            self.digitalwork_user1,
                                            self.thumbnail_user1,
                                            num_editions=0)

        # check piece address
        self.assertTrue(
            self._check_address(piece.bitcoin_path, self.user1, self.password))

        # retrieve transaction
        btc_tx = BitcoinTransaction.objects.get(ownership__piece=piece)

        self.assertEqual(btc_tx.from_address,
                         BitcoinWallet.mainAdminBtcAddress())
        self.assertEqual(
            btc_tx.outputs[0],
            (BitcoinService.minDustSize, piece.hash_as_address_no_metada()))
        self.assertEqual(btc_tx.outputs[1],
                         (BitcoinService.minDustSize, piece.hash_as_address()))
        self.assertEqual(btc_tx.outputs[2],
                         (BitcoinService.minDustSize, piece.bitcoin_id))

        self.assertEqual(btc_tx.spoolverb, 'ASCRIBESPOOL01PIECE')
        self.assertEqual(btc_tx.status, TX_PENDING)
Esempio n. 2
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    def test_consigned_registration(self):
        piece, editions = self.create_consigned_registration(
            self.user1,
            self.digitalwork_user1,
            self.thumbnail_user1,
            num_editions=10)
        btc_txs = BitcoinTransaction.objects.filter(ownership__piece=piece)
        btc_tx = BitcoinTransaction.objects.get(
            ownership__type='ConsignedRegistration')

        # consigned registration + editions
        self.assertEqual(len(btc_txs), 2)

        for edition in editions:
            self.assertTrue(
                self._check_address(edition.bitcoin_path, self.user1,
                                    self.password))

        self.assertEqual(btc_tx.from_address,
                         BitcoinWallet.mainAdminBtcAddress())
        self.assertEqual(
            btc_tx.outputs,
            [(BitcoinService.minDustSize, piece.hash_as_address_no_metada()),
             (BitcoinService.minDustSize, piece.hash_as_address()),
             (BitcoinService.minDustSize, piece.bitcoin_id)])

        self.assertEqual(btc_tx.spoolverb,
                         'ASCRIBESPOOL01CONSIGNEDREGISTRATION')
        self.assertEqual(btc_tx.status, TX_PENDING)
Esempio n. 3
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    def test_register_number_editions(self):
        # create piece
        piece, editions = self.create_piece(self.user1,
                                            self.digitalwork_user1,
                                            self.thumbnail_user1,
                                            num_editions=0)
        self.assertFalse(
            BitcoinTransaction.objects.filter(
                ownership__type='OwnershipEditions').exists())

        # create editions
        edition_task = self.create_editions(self.user1, piece, 10)
        btc_tx = BitcoinTransaction.objects.get(
            ownership__type='OwnershipEditions')

        self.assertEqual(btc_tx.from_address,
                         BitcoinWallet.mainAdminBtcAddress())
        self.assertEqual(
            btc_tx.outputs,
            [(BitcoinService.minDustSize, piece.hash_as_address_no_metada()),
             (BitcoinService.minDustSize, piece.hash_as_address()),
             (BitcoinService.minDustSize, piece.bitcoin_id)])

        self.assertEqual(btc_tx.spoolverb, 'ASCRIBESPOOL01EDITIONS10')
        self.assertEqual(btc_tx.status, TX_PENDING)
Esempio n. 4
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def init_edition(address, piece_id, edition_number, user_id):
    root_piece = Piece.objects.get(pk=piece_id)
    user = get_user_model().objects.get(pk=user_id)
    address = BitcoinWallet.walletForUser(user).create_new_address()
    return Edition(parent=root_piece,
                   edition_number=edition_number,
                   bitcoin_path=address,
                   owner=user)
Esempio n. 5
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    def testUpdateBitcoinWallet(self):
        save_wallet = BitcoinWallet.create(self.user1, password=self.password)
        save_wallet.save()
        save_wallet.public_key = "nonsense"
        save_wallet.save()

        find_wallet = BitcoinWallet.objects.get(user=self.user1.id)
        self.assertTrue(save_wallet == find_wallet)
        self.assertEqual(find_wallet.public_key, "nonsense")
Esempio n. 6
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def refill_main_wallet():
    inputs = refill_main_wallet.select_chunk()
    outputs = [{
        'address': BitcoinWallet.mainAdminBtcAddress(),
        'value': settings.BTC_FEE
    }] * 50
    outputs += [{
        'address': BitcoinWallet.mainAdminBtcAddress(),
        'value': settings.BTC_TOKEN
    }] * 150
    unsigned_tx = refill_main_wallet.transactions.build_transaction(
        inputs, outputs)
    signed_tx = refill_main_wallet.transactions.sign_transaction(
        unsigned_tx, settings.BTC_REFILL_PASSWORD)
    txid = refill_main_wallet.transactions.push(signed_tx)
    logger.info('Refilling main wallet {}'.format(txid))

    return txid
Esempio n. 7
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    def test_migration_transfer(self):
        piece, editions = self.create_piece(self.user1,
                                            self.digitalwork_user1,
                                            self.thumbnail_user1,
                                            num_editions=10)
        edition = editions[0]
        self.request_reset_password(self.user1)
        self.reset_password(self.user1, self.new_password)
        self.create_transfer(self.user1, self.user2.email, edition.bitcoin_id,
                             self.new_password)

        btc_txs = BitcoinTransaction.objects.filter(ownership__piece=piece)
        btc_tx_migrate = BitcoinTransaction.objects.get(
            ownership__type='OwnershipMigration')
        btc_tx_transfer = BitcoinTransaction.objects.get(
            ownership__type='OwnershipTransfer')
        ownership_migration = OwnershipMigration.objects.get(edition=edition)
        ownership_transfer = OwnershipTransfer.objects.get(edition=edition)

        # piece, editions, register, migration, transfer
        self.assertEqual(len(btc_txs), 5)

        # check migration
        new_btc_path_migration = ownership_migration.new_btc_address
        _, new_address_migration = new_btc_path_migration.split(':')

        self.assertTrue(
            self._check_address(new_btc_path_migration, self.user1,
                                self.new_password))

        self.assertEqual(btc_tx_migrate.from_address,
                         BitcoinWallet.mainAdminBtcAddress())
        self.assertEqual(
            btc_tx_migrate.outputs,
            [(BitcoinService.minDustSize, edition.hash_as_address_no_metada()),
             (BitcoinService.minDustSize, edition.bitcoin_id),
             (BitcoinService.minDustSize, new_address_migration)])

        self.assertEqual(
            btc_tx_migrate.spoolverb,
            'ASCRIBESPOOL01MIGRATE{}'.format(edition.edition_number))
        self.assertEqual(btc_tx_migrate.status, TX_PENDING)

        # check transfer
        new_btc_path_transfer = ownership_transfer.new_btc_address
        _, new_address_transfer = new_btc_path_transfer.split(':')

        self.assertEqual(btc_tx_transfer.from_address, new_btc_path_migration)
        self.assertEqual(
            btc_tx_transfer.outputs,
            [(BitcoinService.minDustSize, edition.hash_as_address_no_metada()),
             (BitcoinService.minDustSize, new_address_transfer)])

        self.assertEqual(
            btc_tx_transfer.spoolverb,
            'ASCRIBESPOOL01TRANSFER{}'.format(edition.edition_number))
        self.assertEqual(btc_tx_transfer.status, TX_PENDING)
Esempio n. 8
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def _alice_bitcoin_wallet():
    from bitcoin.models import BitcoinWallet
    alice = _alice()
    try:
        alice_wallet = BitcoinWallet.objects.get(user=alice)
    except BitcoinWallet.DoesNotExist:
        alice_wallet = BitcoinWallet.create(alice, password='******')
        alice_wallet.save()
    return alice_wallet
Esempio n. 9
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    def testPycoinWallet(self):
        save_wallet = BitcoinWallet.create(
            self.user_admin, password=settings.DJANGO_PYCOIN_ADMIN_PASS)
        save_wallet.save()

        find_wallet = BitcoinWallet.objects.get(user=self.user_admin.id)
        self.assertEqual(
            find_wallet.rootAddress,
            find_wallet.pycoinWallet(
                public_key=find_wallet.public_key).bitcoin_address())
Esempio n. 10
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def on_loan_piece_create(sender, instance, password, *args, **kwargs):
    # upon loan created we need to check if:
    # 1. If it requires a migration

    # check migration
    migration = check_migration(instance)
    if migration:
        instance.prev_btc_address = migration.new_btc_address
        instance.ciphertext_wif = BitcoinWallet.encoded_wif_for_path(instance, password)
        instance.save()
Esempio n. 11
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def alice_bitcoin_wallet(alice, alice_password):
    from bitcoin.models import BitcoinWallet
    # TODO remove the try/except clause, and make the creation more explicit,
    # i.e.: via Bitcoin.objects.create() with required parameters
    try:
        alice_wallet = BitcoinWallet.objects.get(user=alice)
    except BitcoinWallet.DoesNotExist:
        alice_wallet = BitcoinWallet.create(alice, password=alice_password)
        alice_wallet.save()
    return alice_wallet
Esempio n. 12
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def _djroot_bitcoin_wallet():
    from pycoin.key.BIP32Node import BIP32Node
    from bitcoin.models import BitcoinWallet
    djroot = _djroot_user()
    netcode = 'XTN' if settings.BTC_TESTNET else 'BTC'
    private_wallet = BIP32Node.from_master_secret('secret-djroot',
                                                  netcode=netcode)
    public_key = private_wallet.wallet_key(as_private=False)
    djroot_wallet = BitcoinWallet.create(djroot, public_key=public_key)
    djroot_wallet.save()
    return djroot_wallet
Esempio n. 13
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def invited_erin_bitcoin_wallet(invited_erin, invited_erin_password):
    from bitcoin.models import BitcoinWallet
    # TODO remove the try/except clause, and make the creation more explicit,
    # i.e.: via Bitcoin.objects.create() with required parameters
    try:
        invited_erin_wallet = BitcoinWallet.objects.get(user=invited_erin)
    except BitcoinWallet.DoesNotExist:
        invited_erin_wallet = BitcoinWallet.create(
            invited_erin, password=invited_erin_password)
        invited_erin_wallet.save()
    return invited_erin_wallet
Esempio n. 14
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def djroot_bitcoin_wallet(djroot_user, monkeypatch):
    from pycoin.key.BIP32Node import BIP32Node
    from bitcoin.models import BitcoinWallet
    netcode = 'XTN' if settings.BTC_TESTNET else 'BTC'
    private_wallet = BIP32Node.from_master_secret('secret-djroot',
                                                  netcode=netcode)
    public_key = private_wallet.wallet_key(as_private=False)
    djroot_wallet = BitcoinWallet.create(djroot_user, public_key=public_key)
    djroot_wallet.save()
    monkeypatch.setattr('django.conf.settings.BTC_MAIN_WALLET',
                        djroot_wallet.address)
    return djroot_wallet
Esempio n. 15
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def rescan():
    print 'Rescanning the blockchain. This may take several minutes...'
    transactions = Transactions(service=settings.BTC_SERVICE,
                                testnet=settings.BTC_TESTNET,
                                username=settings.BTC_USERNAME,
                                password=settings.BTC_PASSWORD,
                                host=settings.BTC_HOST,
                                port=settings.BTC_PORT)
    main_address = BitcoinWallet.mainAdminBtcAddress()
    print 'Sending rescan command to {} main address {}'.format(
        settings.BTC_HOST, main_address)
    transactions.import_address(main_address, 'mainaddress', rescan=True)
Esempio n. 16
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    def test_import_address(self):
        t = Transactions(service=settings.BTC_SERVICE,
                         testnet=settings.BTC_TESTNET,
                         username=settings.BTC_USERNAME,
                         password=settings.BTC_PASSWORD,
                         host=settings.BTC_HOST,
                         port=settings.BTC_PORT)

        with self.settings(BTC_ENABLED=False):
            address = BitcoinWallet.walletForUser(
                self.user1).create_new_address()
            BitcoinWallet.import_address(address, self.user1).delay()
            address = address.split(':')[1]

        # with btc disabled the address should not be imported
        response = t._service.make_request('getaddressesbyaccount',
                                           [self.user1.email])
        self.assertIsNone(response['error'])
        self.assertFalse(address in response['result'])

        # lets import it
        import_address(address, self.user1.email)
        response = t._service.make_request('getaddressesbyaccount',
                                           [self.user1.email])
        self.assertIsNone(response['error'])
        self.assertTrue(address in response['result'])

        # lets create a new address with btc enabled
        address = BitcoinWallet.walletForUser(self.user1).create_new_address()
        BitcoinWallet.import_address(address, self.user1).delay()
        address = address.split(':')[1]
        response = t._service.make_request('getaddressesbyaccount',
                                           [self.user1.email])
        self.assertIsNone(response['error'])
        self.assertTrue(address in response['result'])
Esempio n. 17
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 def reset_password(user, password):
     UserResetPasswordRole.create(user=user).save()
     user.set_password(password)
     user.save()
     request_role = UserRequestResetPasswordRole.objects.filter(
         user=user).order_by("-datetime")[0]
     request_role.confirm()
     request_role.save()
     # update bitcoin wallet
     wallet = BitcoinWallet.objects.get(user=user)
     pubkey = BitcoinWallet.pubkeyFromPassword(user, password)
     wallet.public_key = pubkey
     wallet.save()
def forwards_func(apps, schema_editor):
    # We need to convert the encoded passwords to encoded wif
    Ownership = apps.get_model("ownership", "Ownership")
    Edition = apps.get_model("piece", "Edition")

    for o in Ownership.objects.filter(ciphertext_password__isnull=False):
        if o.prev_btc_address:
            path, prev_address = o.prev_btc_address.split(':')
        else:
            edition = Edition.objects.get(id=o.edition_id)
            path, prev_address = btc_owner_address(apps, edition).split(':')

        password = crypto.decode(settings.SECRET_KEY, o.ciphertext_password)
        wallet = BitcoinWallet.pycoinWallet(
            password=BitcoinWallet.pycoinPassword(o.prev_owner, password),
            public=False)

        wif = wallet.subkey_for_path(path).wif()
        encoded_wif = crypto.encode(settings.SECRET_KEY, wif)

        o.ciphertext_password = encoded_wif
        o.save()
Esempio n. 19
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def check_migration(instance):
    # Check to see if an edition needs to be migrated
    role = UserResetPasswordRole.objects.filter(user=instance.prev_owner).order_by('-datetime')
    role = role[0] if role else None

    # if user reset its password
    if role:
        # set the prev_btc_address
        if instance.prev_btc_address:
            prev_btc_address = instance.prev_btc_address
        else:
            prev_btc_address = instance.edition.btc_owner_address

        # get registration
        previous_ownership = ownership_models.Ownership.objects.filter(new_owner=instance.prev_owner,
                                                                       new_btc_address=prev_btc_address
                                                                       ).order_by("-datetime")

        # There is always at least a registration
        previous_ownership = previous_ownership[0]

        # if the previous ownership action was done before the change of password
        # or the previous ownership is a registration
        if role.datetime >= previous_ownership.datetime or previous_ownership.type == 'OwnershipRegistration':
            new_btc_address = BitcoinWallet.walletForUser(instance.prev_owner).create_new_address()
            BitcoinWallet.import_address(new_btc_address, instance.prev_owner).delay()
            if instance.edition:
                migration = ownership_models.OwnershipMigration.create(edition=instance.edition,
                                                                       new_owner=instance.prev_owner)
            else:
                migration = ownership_models.OwnershipMigration.create(edition=None,
                                                                       piece=instance.piece,
                                                                       new_owner=instance.piece.user_registered)
            migration.new_btc_address = new_btc_address
            migration.prev_btc_address = prev_btc_address
            migration.save()
            return migration

    return None
Esempio n. 20
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    def wallet_settings(self, request):
        wallet = BitcoinWallet.walletForUser(request.user)
        btc_public_key = wallet.public_key
        btc_root_address = wallet.rootAddress

        json_data = {
            'btc_public_key': btc_public_key,
            'btc_root_address': btc_root_address
        }
        return Response({
            'success': True,
            'wallet_settings': json_data
        },
                        status=status.HTTP_200_OK)
Esempio n. 21
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    def testCreateBitcoinTransaction(self):
        user = self.user1
        from_wallet = BitcoinWallet.create(self.user1, password=self.password)
        from_wallet.save()

        save_bitcointransaction = BitcoinTransaction.create(
            user=user,
            from_address=from_wallet.address,
            outputs=[(int(1 * BitcoinService.minTransactionSize),
                      BTC_TEST_ADDRESS)],
            spoolverb='ascribespoolverbtest')
        save_bitcointransaction.save()

        find_bitcointransaction = BitcoinTransaction.objects.get(
            id=save_bitcointransaction.id)
        self.assertTrue(save_bitcointransaction == find_bitcointransaction)
Esempio n. 22
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def wallet_status():
    print 'Checking Federation wallet status...'
    transactions = Transactions(service=settings.BTC_SERVICE, testnet=settings.BTC_TESTNET,
                                username=settings.BTC_USERNAME, password=settings.BTC_PASSWORD,
                                host=settings.BTC_HOST, port=settings.BTC_PORT)
    main_address = BitcoinWallet.mainAdminBtcAddress()
    unspents = transactions.get(main_address, min_confirmations=1)['unspents']
    fees = 0
    tokens = 0
    for u in unspents:
        if u['amount'] == settings.BTC_TOKEN:
            tokens += 1
        elif u['amount'] == settings.BTC_FEE:
            fees += 1

    print "Wallet {} has {} tokens and {} fees".format(main_address, tokens, fees)
Esempio n. 23
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    def test_transfer_edition(self):
        piece, editions = self.create_piece(self.user1,
                                            self.digitalwork_user1,
                                            self.thumbnail_user1,
                                            num_editions=10)
        edition = editions[0]
        self.create_transfer(self.user1, self.user2.email, edition.bitcoin_id,
                             self.password)

        btc_txs = BitcoinTransaction.objects.filter(ownership__piece=piece)
        btc_tx_transfer = BitcoinTransaction.objects.get(
            ownership__type='OwnershipTransfer')
        btc_tx_register = BitcoinTransaction.objects.get(
            ownership__type='OwnershipRegistration')

        # piece + editions + register + transfer
        self.assertEqual(len(btc_txs), 4)

        # check registration
        self.assertEqual(btc_tx_register.from_address,
                         BitcoinWallet.mainAdminBtcAddress())
        self.assertEqual(
            btc_tx_register.outputs,
            [(BitcoinService.minDustSize, edition.hash_as_address_no_metada()),
             (BitcoinService.minDustSize, edition.hash_as_address()),
             (BitcoinService.minDustSize, edition.bitcoin_id)])

        self.assertEqual(
            btc_tx_register.spoolverb,
            'ASCRIBESPOOL01REGISTER{}'.format(edition.edition_number))
        self.assertEqual(btc_tx_register.status, TX_PENDING)

        # check transfer
        self.assertTrue(
            self._check_address(edition.btc_owner_address, self.user2,
                                self.password2))

        self.assertEqual(btc_tx_transfer.from_address, edition.bitcoin_path)
        self.assertEqual(
            btc_tx_transfer.outputs,
            [(BitcoinService.minDustSize, edition.hash_as_address_no_metada()),
             (BitcoinService.minDustSize, edition.btc_owner_address_noprefix)])

        self.assertEqual(
            btc_tx_transfer.spoolverb,
            'ASCRIBESPOOL01TRANSFER{}'.format(edition.edition_number))
        self.assertEqual(btc_tx_transfer.status, TX_PENDING)
Esempio n. 24
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def on_loan_edition_create(sender, instance, password, *args, **kwargs):
    # upon loan created we need to check if:
    # 1. An edition is registered
    # 2. If it requires a migration

    # check if edition is registered
    registration = ownership_models.OwnershipRegistration.objects.filter(edition=instance.edition)
    if not registration:
        registration = ownership_models.OwnershipRegistration.create(edition=instance.edition,
                                                                     new_owner=instance.edition.owner)
        registration.save()

    # check migration
    migration = check_migration(instance)
    if migration:
        instance.prev_btc_address = migration.new_btc_address
        instance.ciphertext_wif = BitcoinWallet.encoded_wif_for_path(instance, password)
        instance.save()
Esempio n. 25
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def on_ownership_transfer_create(sender, instance, password, *args, **kwargs):
    # Create bitcoin transfer transaction
    transfer = BitcoinTransaction.transfer(instance)

    # if a user needs to register and there is no wallet yet no transaction will be created
    if transfer:

        # before pushing the transaction we need to check:
        # 1. the edition is already registered (because of lazy editions)
        # 2. check if an edition needs migration (due to a password change)
        # 3. the edition address is refilled

        # check if edition is registered
        registration = ownership_models.OwnershipRegistration.objects.filter(edition=instance.edition)
        if not registration:
            registration = ownership_models.OwnershipRegistration.create(edition=instance.edition,
                                                                         new_owner=instance.edition.owner)
            registration.save()

        # check if edition needs migration
        migration = check_migration(instance)
        if migration:
            instance.prev_btc_address = migration.new_btc_address
            instance.btc_tx = None
            instance.ciphertext_wif = BitcoinWallet.encoded_wif_for_path(instance, password)
            instance.save()

            # delete old btc_tx which has the wrong addresses and create a new one
            transfer.delete()
            transfer = BitcoinTransaction.transfer(instance)

        # refill the edition address
        # create the transaction
        refill = BitcoinTransaction.refill(instance)
        # set the transfer as the dependent transaction so that it is sent after the refill by the
        # transaction_monitor
        refill.dependent_tx = transfer
        refill.save()
        tasks.refill.delay(refill.id, util.mainAdminPassword())
Esempio n. 26
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    def select_inputs(self, address, nfees, ntokens, min_confirmations=6):
        # select inputs from the federation wallet
        if address == BitcoinWallet.mainAdminBtcAddress():
            cursor = connection.cursor()
            cursor.execute(query_sql_main % (ntokens, nfees))
            desc = cursor.description
            unspents = [
                dict(zip([col[0] for col in desc], row))
                for row in cursor.fetchall()
            ]
            fees = filter(lambda d: d['amount'] == settings.BTC_FEE, unspents)
            tokens = filter(lambda d: d['amount'] == settings.BTC_TOKEN,
                            unspents)
            if len(fees) != nfees or len(tokens) != ntokens:
                raise SpoolFundsError('Not enough unspents for transaction')

            return fees + tokens
        else:
            # select inputs from the user HD wallet
            return super(BackendSpool, self).select_inputs(address,
                                                           nfees,
                                                           ntokens,
                                                           min_confirmations=1)
Esempio n. 27
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def _bob_bitcoin_wallet():
    from bitcoin.models import BitcoinWallet
    bob = _bob()
    bob_wallet = BitcoinWallet.create(bob, password='******')
    bob_wallet.save()
    return bob_wallet
Esempio n. 28
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    def testCreateBitcoinWallet(self):
        save_wallet = BitcoinWallet.create(self.user1, password=self.password)
        save_wallet.save()

        find_wallet = BitcoinWallet.objects.get(user=self.user1.id)
        self.assertTrue(save_wallet == find_wallet)
Esempio n. 29
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def test_register_editions(registered_piece_alice):
    from bitcoin.bitcoin_service import BitcoinService
    from bitcoin.models import BitcoinTransaction, BitcoinWallet, TX_PENDING
    from ownership.models import OwnershipEditions
    from acl.models import ActionControl
    from ..models import Edition
    from ..tasks import register_editions

    # Test can be used with any number of editions.
    # We use 1 for speed reasons.
    num_editions = 1
    alice = registered_piece_alice.user_registered
    piece_alice = registered_piece_alice

    editions_tasks = register_editions(piece_alice, alice,
                                       num_editions).delay()
    assert editions_tasks.failed() is False

    # We test if the editions returned
    # were correctly inserted into the database
    editions = editions_tasks.get()

    assert all(
        Edition.objects.filter(parent=piece_alice,
                               bitcoin_path__icontains=e.bitcoin_id).exists()
        for e in editions)
    assert piece_alice.num_editions == num_editions
    assert len(editions) == num_editions

    # We test if the ACLs for the respective user
    # and their editions have been set appropriately
    acls = ActionControl.objects.filter(user=alice,
                                        piece=piece_alice,
                                        edition__in=editions)
    for acl in acls:
        assert acl.acl_view is True
        assert acl.acl_edit is True
        assert acl.acl_download is True
        assert acl.acl_delete is True
        assert acl.acl_create_editions is False
        assert acl.acl_share is True
        assert acl.acl_unshare is False
        assert acl.acl_transfer is True
        assert acl.acl_withdraw_transfer is False
        assert acl.acl_consign is True
        assert acl.acl_withdraw_consign is False
        assert acl.acl_unconsign is False
        assert acl.acl_request_unconsign is False
        assert acl.acl_loan is True
        assert acl.acl_coa is True

    # We test if an OwnershipEditions object and
    # a related BitcoinTransaction were created
    editions_ownership = OwnershipEditions.objects.get(piece=piece_alice,
                                                       new_owner=alice)
    assert editions_ownership.piece == piece_alice

    btc_tx = BitcoinTransaction.objects.get(pk=editions_ownership.btc_tx.id)
    assert btc_tx.from_address == BitcoinWallet.mainAdminBtcAddress()
    assert btc_tx.outputs == [
        (BitcoinService.minDustSize, piece_alice.hash_as_address_no_metada()),
        (BitcoinService.minDustSize, piece_alice.hash_as_address()),
        (BitcoinService.minDustSize, piece_alice.bitcoin_id)
    ]
    assert btc_tx.spoolverb == 'ASCRIBESPOOL01EDITIONS{}'.format(num_editions)
    assert btc_tx.status == TX_PENDING
Esempio n. 30
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    def _createNewUser(email,
                       password,
                       username=None,
                       application=None,
                       invited=False,
                       lang=settings.LANGUAGE_CODE,
                       subdomain="www",
                       token=None):

        pending_actions = False

        if not username:
            username = createUsername(email.split('@')[0][:30])
        user = userNeedsRegistration(email)

        # user exists in DB. Was it created by an invite?
        if user is not None:
            user.set_password(password)
            user.save()
            # BitcoinWallet.objects.get(user=user).delete()
            UserNeedsToRegisterRole.objects.get(
                user=user, type="UserNeedsToRegisterRole").delete()
            pending_actions = True

        else:
            user = User.objects.create_user(username, email, password)
            if invited:
                UserNeedsToRegisterRole.create(user=user, role=None).save()
                return user
        try:
            user_profile = UserProfile.objects.get(user=user)
        except ObjectDoesNotExist:
            user_profile = UserProfile.objects.create(user=user,
                                                      created_by=application)
            user_profile.save()

        # create bitcoin account
        # there should only be one wallet. but just in case
        old_wallet = BitcoinWallet.objects.filter(user=user)
        if len(old_wallet) > 0:
            for w in old_wallet:
                w.delete()
        BitcoinWallet.create(user, password=password).save()

        # after the wallet is created we can check the pending actions
        if pending_actions:
            check_pending_actions.send(sender=UserEndpoint, user=user)

        if not token:
            validate_email_role = UserValidateEmailRole.create(user)
            validate_email_role.save()
            # TODO put this logic somewhere else
            if subdomain == 'cc':
                msg_cls = messages.WelcomeEmailMessageCreativeCommons
            elif subdomain == '23vivi':
                msg_cls = messages.WelcomeEmailMessage23vivi
            elif subdomain == 'lumenus':
                msg_cls = messages.WelcomeEmailMessageLumenus
            elif subdomain == 'polline':
                msg_cls = messages.WelcomeEmailMessagePolline
            elif subdomain == 'artcity':
                msg_cls = messages.WelcomeEmailMessageArtcity
            elif subdomain == 'demo':
                msg_cls = messages.WelcomeEmailMessageDemo
            elif subdomain == 'liquidgallery':
                msg_cls = messages.WelcomeEmailMessageLiquidGallery
            else:
                msg_cls = messages.WelcomeEmailMessage
            send_ascribe_email.delay(
                msg_cls=msg_cls,
                to=user.email,
                token=validate_email_role.token,
                subdomain=subdomain,
                lang=lang,
            )
        else:
            validate_email_role = UserValidateEmailRole.objects.filter(
                user=user).order_by("-datetime")[0]
            assert validate_email_role.token == token
            validate_email_role.confirm()
            validate_email_role.save()
        return user