def test_accounts(bucket):
    for group in [None, "chris", "ƒ˚®ø©∆∂µ"]:
        accounts = Accounts(group=group)

        account_names = [
            "new account", "chris's checking account", "å∫ç∂´® account"
        ]

        created_accounts = {}

        for name in account_names:
            account = accounts.create_account(name,
                                              description="Account: %s" % name,
                                              bucket=bucket)

            assert (name == account.name())

            created_accounts[name] = account

        names = accounts.list_accounts()

        for name in account_names:
            assert (name in names)

        for name in account_names:
            account = accounts.get_account(name, bucket=bucket)
            assert (name == account.name())

            assert (account == created_accounts[name])
Exemple #2
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def run(args):
    """This function is called to handle requests for information about
       particular accounts

       Args:
            args (dict): data for account query

        Returns:
            dict: contains status, status message and details regarding
                the account including balance (if available), overdraft
                limit and a description of the account
    """

    status = 0
    message = None

    account = None
    balance_status = None

    try:
        account_name = str(args["account_name"])
    except:
        account_name = None

    try:
        authorisation = Authorisation.from_data(args["authorisation"])
    except:
        authorisation = None

    if account_name is None:
        raise AccountError("You must supply the account_name")

    if authorisation is None:
        raise AccountError("You must supply a valid authorisation")

    # load the account
    bucket = get_service_account_bucket()
    accounts = Accounts(user_guid=authorisation.user_guid())
    account = accounts.get_account(account_name, bucket=bucket)

    # validate the authorisation for this account
    authorisation.verify(resource="get_info %s" % account.uid())

    balance = account.balance()

    return_value = {}

    return_value["description"] = account.description()
    return_value["overdraft_limit"] = str(account.get_overdraft_limit())
    return_value["balance"] = balance.to_data()

    return return_value
def run(args):
    """This function is called to handle creating accounts for users"""

    status = 0
    message = None

    account_uid = None

    try:
        account_name = args["account_name"]
    except:
        account_name = None

    try:
        description = args["description"]
    except:
        description = None

    try:
        authorisation = Authorisation.from_data(args["authorisation"])
    except:
        authorisation = None

    if account_name is None or description is None \
            or authorisation is None:
        raise CreateAccountError("You must supply both an account name "
                                 "and a description to create an account")

    if not isinstance(authorisation, Authorisation):
        raise TypeError("The passed authorisation must be of type "
                        "Authorisation")

    authorisation.verify()

    # try to create a 'main' account for this user
    accounts = Accounts(authorisation.user_uid())
    account = accounts.create_account(name=account_name,
                                      description=description)

    account_uid = account.uid()

    status = 0
    message = "Success"

    return_value = create_return_value(status, message)

    if account_uid:
        return_value["account_uid"] = account_uid

    return return_value
def account1(bucket):
    push_is_running_service()
    accounts = Accounts(user_guid=account1_user)
    account = Account(name="Testing Account",
                      description="This is the test account",
                      group_name=accounts.name(),
                      bucket=bucket)
    uid = account.uid()
    assert (uid is not None)
    assert (account.balance() == Balance())

    account.set_overdraft_limit(account1_overdraft_limit)
    assert (account.get_overdraft_limit() == account1_overdraft_limit)
    pop_is_running_service()

    return account
def account1(bucket):
    if not have_freezetime:
        return None

    with freeze_time(start_time) as _frozen_datetime:
        now = get_datetime_now()
        assert (start_time == now)
        push_is_running_service()
        accounts = Accounts(user_guid=account1_user)
        account = Account(name="Testing Account",
                          description="This is the test account",
                          group_name=accounts.name())
        uid = account.uid()
        assert (uid is not None)
        assert (account.balance() == Balance())

        account.set_overdraft_limit(account1_overdraft_limit)
        assert (account.get_overdraft_limit() == account1_overdraft_limit)
        pop_is_running_service()

    return account
def run(args):
    """This function is called to handle requests for information about
       particular accounts
    """

    status = 0
    message = None

    account = None
    balance_status = None

    try:
        account_name = str(args["account_name"])
    except:
        account_name = None

    try:
        authorisation = Authorisation.from_data(args["authorisation"])
    except:
        authorisation = None

    if account_name is None:
        raise AccountError("You must supply the account_name")

    if authorisation is None:
        raise AccountError("You must supply a valid authorisation")

    # load the account
    bucket = login_to_service_account()
    account = Accounts(authorisation.user_uid()).get_account(account_name,
                                                             bucket=bucket)

    # validate the authorisation for this account
    authorisation.verify(resource=account.uid())

    balance_status = account.balance_status(bucket=bucket)

    status = 0
    message = "Success"

    return_value = create_return_value(status, message)

    if account:
        return_value["description"] = account.description()
        return_value["overdraft_limit"] = str(account.get_overdraft_limit())

    if balance_status:
        for key in balance_status.keys():
            return_value[key] = str(balance_status[key])

    return return_value
Exemple #7
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def test_accounts(bucket):
    for user_guid in [None, "chris@something", "ƒ˚®ø©∆∂µ@¨^ø¨^ø"]:
        if user_guid is None:
            accounts = Accounts(group=user_guid,
                                aclrules=ACLRules.owner(user_guid=None))
        else:
            accounts = Accounts(user_guid=user_guid)

        account_names = [
            "new account", "chris's checking account", "å∫ç∂´® account"
        ]

        created_accounts = {}

        testing_key = get_private_key("testing")

        for name in account_names:
            authorisation = Authorisation(resource="create_account %s" % name,
                                          testing_key=testing_key,
                                          testing_user_guid=user_guid)

            account = accounts.create_account(name,
                                              description="Account: %s" % name,
                                              bucket=bucket,
                                              authorisation=authorisation)

            assert (name == account.name())

            created_accounts[name] = account

        names = accounts.list_accounts()

        for name in account_names:
            assert (name in names)

        for name in account_names:
            account = accounts.get_account(name, bucket=bucket)
            assert (name == account.name())

            assert (account == created_accounts[name])
Exemple #8
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def run(args):
    """This function is called to handle request to cash cheques. This
       will verify that the cheque is valid and will then create
       the debit/credit note pair for the transation. It will return
       the CreditNote to the caller so they can see that the funds have
       been reserved, and can receipt the transaction once goods/services
       have been delivered.

       Args:
            args (dict): information for payment for service

        Returns:
            dict: contains status, status message and credit note if valid

    """

    credit_notes = []

    try:
        cheque = args["cheque"]
    except:
        raise ValueError("You must supply a cheque to be cashed!")

    try:
        cheque = Cheque.from_data(cheque)
    except Exception as e:
        from Acquire.Service import exception_to_string
        raise TypeError("Unable to interpret the cheque.\n\nCAUSE: %s" %
                        exception_to_string(e))

    try:
        spend = args["spend"]
    except:
        spend = None

    if spend is not None:
        try:
            spend = string_to_decimal(spend)
        except Exception as e:
            from Acquire.Service import exception_to_string
            raise TypeError("Unable to interpret the spend.\n\nCause: %s" %
                            exception_to_string(e))

    try:
        resource = str(args["resource"])
    except:
        raise ValueError(
            "You must supply a string representing the resource that will "
            "be paid for using this cheque")

    try:
        account_uid = str(args["account_uid"])
    except:
        raise ValueError("You must supply the UID of the account to which the "
                         "cheque will be cashed")

    try:
        receipt_by = args["receipt_by"]
    except:
        raise ValueError(
            "You must supply the datetime by which you promise to "
            "receipt this transaction")

    try:
        receipt_by = string_to_datetime(receipt_by)
    except Exception as e:
        from Acquire.Service import exception_to_string
        raise TypeError(
            "Unable to interpret the receipt_by date.\n\nCAUSE: %s" %
            exception_to_string(e))

    # now read the cheque - this will only succeed if the cheque
    # is valid, has been signed, has been sent from the right
    # service, and was authorised by the user, the cheque
    # has not expired and we are the
    # service which holds the account from which funds are drawn
    info = cheque.read(resource=resource, spend=spend, receipt_by=receipt_by)

    try:
        description = str(args["description"])
    except:
        description = info["resource"]

    authorisation = info["authorisation"]
    auth_resource = info["auth_resource"]
    user_guid = authorisation.user_guid()

    # the cheque is valid
    bucket = get_service_account_bucket()

    try:
        debit_account = Account(uid=info["account_uid"], bucket=bucket)
    except Exception as e:
        from Acquire.Service import exception_to_string
        raise PaymentError("Cannot find the account associated with the cheque"
                           "\n\nCAUSE: %s" % exception_to_string(e))

    try:
        credit_account = Account(uid=account_uid, bucket=bucket)
    except Exception as e:
        from Acquire.Service import exception_to_string
        raise PaymentError(
            "Cannot find the account to which funds will be creditted:"
            "\n\nCAUSE: %s" % exception_to_string(e))

    # validate that this account is in a group that can be authorised
    # by the user (this should eventually go as the ACLs now allow users
    # to authorised payments from many accounts)
    accounts = Accounts(user_guid=user_guid)
    if not accounts.contains(account=debit_account, bucket=bucket):
        raise PermissionError(
            "The user with UID '%s' cannot authorise transactions from "
            "the account '%s' as they do not own this account." %
            (user_guid, str(debit_account)))

    transaction = Transaction(value=info["spend"], description=description)

    # we have enough information to perform the transaction
    # - this is provisional as the service must receipt everything
    transaction_records = Ledger.perform(transactions=transaction,
                                         debit_account=debit_account,
                                         credit_account=credit_account,
                                         authorisation=authorisation,
                                         authorisation_resource=auth_resource,
                                         is_provisional=True,
                                         receipt_by=receipt_by,
                                         bucket=bucket)

    # extract all of the credit notes to return to the user,
    # and also to record so that we can check if they have not
    # been receipted in time...
    credit_notes = []

    for record in transaction_records:
        credit_notes.append(record.credit_note())

    credit_notes = list_to_string(credit_notes)

    receipt_key = "accounting/cashed_cheque/%s" % info["uid"]
    mutex = Mutex(receipt_key, bucket=bucket)

    try:
        receipted = ObjectStore.get_object_from_json(bucket, receipt_key)
    except:
        receipted = None

    if receipted is not None:
        # we have tried to cash this cheque twice!
        mutex.unlock()
        Ledger.refund(transaction_records, bucket=bucket)
    else:
        info = {"status": "needs_receipt", "creditnotes": credit_notes}
        ObjectStore.set_object_from_json(bucket, receipt_key, info)
        mutex.unlock()

    return {"credit_notes": credit_notes}
Exemple #9
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def run(args):
    """This function is called to handle requests from a user to deposit
       more funds into their account. This will add this deposit as a
       debt for the user. Once the debt exceeds a certain value, then the
       backend-payment system will charge the user's real account to
       recover the funds

       Args:
            args (dict): data for deposit of funds into the account

        Returns:
            dict: contains status, status message and details regarding
                the deposit into the account and invoice data
    """

    transaction_records = None
    invoice_value = None
    invoice_user = None

    try:
        authorisation = Authorisation.from_data(args["authorisation"])
    except:
        authorisation = None

    transaction = Transaction.from_data(args["transaction"])

    if authorisation is None:
        raise PermissionError("You must supply a valid authorisation "
                              "to deposit funds into your account")

    if transaction is None or transaction.is_null():
        raise ValueError("You must supply a valid transaction that "
                         "represents the deposit")

    try:
        account_name = str(args["account_name"])
    except:
        account_name = "deposits"

    if transaction.value() > 0:
        user_guid = authorisation.user_guid()

        # load the account from which the transaction will be performed
        bucket = get_service_account_bucket()
        accounts = Accounts(user_guid=user_guid)

        # deposits are made by transferring funds from the user's
        # 'billing' account to their named account (or 'deposits' account)
        deposit_account = accounts.create_account(account_name,
                                                  "Deposit account",
                                                  bucket=bucket)

        billing_account = accounts.create_account("billing",
                                                  "Billing account",
                                                  overdraft_limit=150,
                                                  bucket=bucket)

        billing_balance = billing_account.balance() - transaction.value()

        if billing_balance.balance() < -50.0:
            # there are sufficient funds that need to be transferred that
            # it is worth really charging the user
            invoice_user = user_guid
            invoice_value = billing_balance

        # we have enough information to perform the transaction
        transaction_records = Ledger.perform(transactions=transaction,
                                             debit_account=billing_account,
                                             credit_account=deposit_account,
                                             authorisation=authorisation,
                                             is_provisional=False,
                                             bucket=bucket)

    return_value = {}

    if transaction_records:
        try:
            transaction_records[0]
        except:
            transaction_records = [transaction_records]

        for i in range(0, len(transaction_records)):
            transaction_records[i] = transaction_records[i].to_data()

        return_value["transaction_records"] = transaction_records

    if invoice_user:
        return_value["invoice_user"] = invoice_user
        return_value["invoice_value"] = str(invoice_value)

    return return_value
def run(args):
    """This function is called to handle requests for the UIDs of accounts
    
        Args:
            args (dict): data regarding account to be queried

        Returns:
            dict: contains status, status message and account UIDs
    
    """

    status = 0
    message = None

    account_uids = None

    try:
        account_name = str(args["account_name"])
    except:
        account_name = None

    try:
        authorisation = Authorisation.from_data(args["authorisation"])
    except:
        authorisation = None

    try:
        user_guid = str(args["user_guid"])
    except:
        user_guid = None

    is_authorised = False

    if authorisation is not None:
        if not isinstance(authorisation, Authorisation):
            raise TypeError("All authorisations must be of type "
                            "Authorisation")

        if user_guid:
            if user_guid == authorisation.user_guid():
                authorisation.verify(resource="get_account_uids")
                is_authorised = True
        else:
            authorisation.verify(resource="get_account_uids")
            user_guid = authorisation.user_guid()
            is_authorised = True

    if user_guid is None:
        raise ValueError("You must supply either an Authorisation or the "
                         "user_guid")

    # try to create a 'main' account for this user
    account_uids = {}
    accounts = Accounts(user_guid=user_guid)

    if account_name is None:
        if not is_authorised:
            raise PermissionError(
                "You cannot list general information about a user's "
                "accounts unless you have authenticated as the user!")

        bucket = get_service_account_bucket()
        account_names = accounts.list_accounts(bucket=bucket)

        for account_name in account_names:
            account = accounts.get_account(account_name, bucket=bucket)
            account_uids[account.uid()] = account.name()

    else:
        if not is_authorised:
            try:
                account = accounts.get_account(account_name)
            except:
                # don't leak any information
                raise ListAccountsError(
                    "No account called '%s' for user '%s'" %
                    (account_name, user_guid))
        else:
            # allow the user to see the real exception if this
            # account doesn't exist
            account = accounts.get_account(account_name)

        account_uids[account.uid()] = account.name()

    return_value = {}

    if account_uids:
        return_value["account_uids"] = account_uids

    return return_value
Exemple #11
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def run(args):
    """This function is called to handle requests to perform transactions
       between accounts

       Args:
            args (dict): data for account transfers

        Returns:
            dict: contains status, status message and transaction
            records if any are available
    """

    transaction_records = None

    try:
        debit_account_uid = str(args["debit_account_uid"])
    except:
        debit_account_uid = None

    try:
        credit_account_uid = str(args["credit_account_uid"])
    except:
        credit_account_uid = None

    try:
        authorisation = Authorisation.from_data(args["authorisation"])
    except:
        authorisation = None

    try:
        transaction = Transaction.from_data(args["transaction"])
    except:
        transaction = None

    try:
        is_provisional = bool(args["is_provisional"])
    except:
        is_provisional = None

    if debit_account_uid is None:
        raise TransactionError("You must supply the account UID "
                               "for the debit account")

    if credit_account_uid is None:
        raise TransactionError("You must supply the account UID "
                               "for the credit account")

    if debit_account_uid == credit_account_uid:
        raise TransactionError(
            "You cannot perform a transaction where the debit and credit "
            "accounts are the same!")

    if transaction is None or transaction.is_null():
        raise TransactionError("You must supply a valid transaction to "
                               "perform!")

    if is_provisional is None:
        raise TransactionError("You must say whether or not the "
                               "transaction is provisional using "
                               "is_provisional")

    if authorisation is None:
        raise PermissionError("You must supply a valid authorisation "
                              "to perform transactions between accounts")

    authorisation.assert_once()
    user_guid = authorisation.user_guid()

    # load the account from which the transaction will be performed
    bucket = get_service_account_bucket()
    debit_account = Account(uid=debit_account_uid, bucket=bucket)

    # validate that this account is in a group that can be authorised
    # by the user - This should eventually go as this is all
    # handled by the ACLs
    if not Accounts(user_guid).contains(account=debit_account,
                                        bucket=bucket):
        raise PermissionError(
            "The user with GUID '%s' cannot authorise transactions from "
            "the account '%s' as they do not own this account." %
            (user_guid, str(debit_account)))

    # now load the two accounts involved in the transaction
    credit_account = Account(uid=credit_account_uid, bucket=bucket)

    # we have enough information to perform the transaction
    transaction_records = Ledger.perform(transactions=transaction,
                                         debit_account=debit_account,
                                         credit_account=credit_account,
                                         authorisation=authorisation,
                                         is_provisional=is_provisional,
                                         bucket=bucket)

    return_value = {}

    if transaction_records:
        try:
            transaction_records[0]
        except:
            transaction_records = [transaction_records]

        for i in range(0, len(transaction_records)):
            transaction_records[i] = transaction_records[i].to_data()

        return_value["transaction_records"] = transaction_records

    return return_value