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bank-statement-import/account_bank_statement_impo.../models/parser.py

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# -*- coding: utf-8 -*-
# Copyright 2013-2018 Therp BV <http://therp.nl>
# Copyright 2017 Open Net Sàrl
# Copyright 2015 1200wd.com
# License AGPL-3.0 or later (http://www.gnu.org/licenses/agpl.html).
import logging
import re
from copy import copy
from datetime import datetime
from lxml import etree
from openerp import _
from openerp.addons.account_bank_statement_import.parserlib import (
BankStatement)
from openerp import models
_logger = logging.getLogger(__name__)
class CamtParser(models.AbstractModel):
"""Parser for camt bank statement import files."""
_name = 'account.bank.statement.import.camt.parser'
def __init__(self):
"""Define and initialize attributes."""
super(CamtParser, self).__init__()
self.namespace = ''
def xpath(self, node, expr):
"""
Wrap namespaces argument into call to Element.xpath():
self.xpath(node, './ns:Acct/ns:Id')
"""
return node.xpath(expr, namespaces={'ns': self.namespace})
def parse_amount(self, node):
"""Parse element that contains Amount and CreditDebitIndicator."""
if node is None:
return 0.0
sign = 1
amount = 0.0
sign_node = node.xpath('ns:CdtDbtInd', namespaces={'ns': ns})
if not sign_node:
sign_node = node.xpath(
'../../ns:CdtDbtInd', namespaces={'ns': ns})
if sign_node and sign_node[0].text == 'DBIT':
sign = -1
amount_node = node.xpath('ns:Amt', namespaces={'ns': ns})
if not amount_node:
amount_node = node.xpath(
'./ns:AmtDtls/ns:TxAmt/ns:Amt', namespaces={'ns': ns})
if amount_node:
amount = sign * float(amount_node[0].text)
return amount
def add_value_from_node(
self, node, xpath_str, obj, attr_name, join_str=None,
default=None):
"""Add value to object from first or all nodes found with xpath.
If xpath_str is a list (or iterable), it will be seen as a series
of search path's in order of preference. The first item that results
in a found node will be used to set a value."""
if not isinstance(xpath_str, (list, tuple)):
xpath_str = [xpath_str]
for search_str in xpath_str:
found_node = self.xpath(node, search_str)
if found_node:
if join_str is None:
attr_value = found_node[0].text
else:
attr_value = join_str.join([x.text for x in found_node])
setattr(obj, attr_name, attr_value)
break
else:
if default:
setattr(obj, attr_name, default)
def parse_transaction_details(self, ns, node, transaction):
"""Parse TxDtls node."""
# message
self.add_value_from_node(
node,
[
'./ns:RmtInf/ns:Ustrd',
'./ns:AddtlTxInf',
'./ns:AddtlNtryInf',
'./ns:RltdPties/ns:CdtrAcct/ns:Tp/ns:Prtry',
'./ns:RltdPties/ns:DbtrAcct/ns:Tp/ns:Prtry',
],
transaction,
'message',
join_str='\n',
default=_('No description'))
# eref
self.add_value_from_node(
node, [
'./ns:RmtInf/ns:Strd/ns:CdtrRefInf/ns:Ref',
'./ns:Refs/ns:EndToEndId',
],
transaction, 'eref'
)
amount = self.parse_amount(ns, node)
if amount != 0.0:
transaction['amount'] = amount
# remote party values
party_type = 'Dbtr'
party_type_node = self.xpath(node, '../../ns:CdtDbtInd')
if party_type_node and party_type_node[0].text != 'CRDT':
party_type = 'Cdtr'
party_node = self.xpath(node, './ns:RltdPties/ns:%s' % party_type)
if party_node:
self.add_value_from_node(
party_node[0], './ns:Nm', transaction, 'remote_owner'
)
self.add_value_from_node(
party_node[0], './ns:PstlAdr/ns:Ctry', transaction,
'remote_owner_country'
)
address_node = self.xpath(
party_node[0], './ns:PstlAdr/ns:AdrLine'
)
if address_node:
transaction.remote_owner_address = [address_node[0].text]
# Get remote_account from iban or from domestic account:
account_node = self.xpath(
node, './ns:RltdPties/ns:%sAcct/ns:Id' % party_type
)
if account_node:
iban_node = self.xpath(account_node[0], './ns:IBAN')
if iban_node:
transaction.remote_account = iban_node[0].text
bic_node = self.xpath(
node,
'./ns:RltdAgts/ns:%sAgt/ns:FinInstnId/ns:BIC'
% party_type
)
if bic_node:
transaction.remote_bank_bic = bic_node[0].text
else:
self.add_value_from_node(
account_node[0], './ns:Othr/ns:Id', transaction,
'remote_account'
)
def parse_transaction(self, node, transaction):
"""Parse transaction (entry) node."""
self.add_value_from_node(
node, './ns:BkTxCd/ns:Prtry/ns:Cd', transaction,
'transfer_type'
)
self.add_value_from_node(
node, './ns:BookgDt/ns:Dt', transaction, 'date')
self.add_value_from_node(
node, './ns:BookgDt/ns:Dt', transaction, 'execution_date')
self.add_value_from_node(
node, './ns:ValDt/ns:Dt', transaction, 'value_date')
transaction.transferred_amount = self.parse_amount(node)
self.add_value_from_node(
node, './ns:AddtlNtryInf', transaction, 'name')
self.add_value_from_node(
ns, node, [
'./ns:NtryDtls/ns:RmtInf/ns:Strd/ns:CdtrRefInf/ns:Ref',
'./ns:NtryDtls/ns:Btch/ns:PmtInfId',
],
transaction, 'eref'
)
details_nodes = node.xpath(
'./ns:NtryDtls/ns:TxDtls', namespaces={'ns': ns})
if len(details_nodes) == 0:
yield transaction
return
transaction_base = transaction
for i, dnode in enumerate(details_nodes):
transaction = copy(transaction_base)
self.parse_transaction_details(ns, dnode, transaction)
# transactions['data'] should be a synthetic xml snippet which
# contains only the TxDtls that's relevant.
# only set this field if statement lines have it
if 'data' in self.pool['account.bank.statement.line']._fields:
data = copy(node)
for j, dnode in enumerate(data.xpath(
'./ns:NtryDtls/ns:TxDtls', namespaces={'ns': ns})):
if j != i:
dnode.getparent().remove(dnode)
transaction['data'] = etree.tostring(data)
yield transaction
def get_balance_type_node(self, node, balance_type):
"""
:param node: BkToCstmrStmt/Stmt/Bal node
:param balance type: one of 'OPBD', 'PRCD', 'ITBD', 'CLBD'
"""
code_expr = (
'./ns:Bal/ns:Tp/ns:CdOrPrtry/ns:Cd[text()="%s"]/../../..' %
balance_type
)
return self.xpath(node, code_expr)
def get_start_balance(self, node):
"""
Find the (only) balance node with code OpeningBalance, or
the only one with code 'PreviousClosingBalance'
or the first balance node with code InterimBalance in
the case of preceeding pagination.
:param node: BkToCstmrStmt/Stmt/Bal node
"""
balance = 0
nodes = (
self.get_balance_type_node(node, 'OPBD') or
self.get_balance_type_node(node, 'PRCD') or
self.get_balance_type_node(node, 'ITBD')
)
if nodes:
balance = self.parse_amount(nodes[0])
return balance
def get_end_balance(self, node):
"""
Find the (only) balance node with code ClosingBalance, or
the second (and last) balance node with code InterimBalance in
the case of continued pagination.
:param node: BkToCstmrStmt/Stmt/Bal node
"""
balance = 0
nodes = (
self.get_balance_type_node(node, 'CLAV') or
self.get_balance_type_node(node, 'CLBD') or
self.get_balance_type_node(node, 'ITBD')
)
if nodes:
balance = self.parse_amount(nodes[-1])
return balance
def parse_statement(self, node):
"""Parse a single Stmt node."""
statement = BankStatement()
self.add_value_from_node(
node, [
'./ns:Acct/ns:Id/ns:IBAN',
'./ns:Acct/ns:Id/ns:Othr/ns:Id',
], statement, 'local_account'
)
self.add_value_from_node(node, './ns:Id', statement, 'statement_id')
self.add_value_from_node(
node, './ns:Acct/ns:Ccy', statement, 'local_currency')
statement.start_balance = self.get_start_balance(node)
statement.end_balance = self.get_end_balance(node)
transaction_nodes = self.xpath(node, './ns:Ntry')
total_amount = 0
for entry_node in transaction_nodes:
transaction = statement.create_transaction()
transaction.data = etree.tostring(entry_node)
self.parse_transaction(entry_node, transaction)
total_amount += transaction.transferred_amount
if statement['transactions']:
execution_date = statement['transactions'][0].execution_date[:10]
statement.date = datetime.strptime(execution_date, "%Y-%m-%d")
# Prepend date of first transaction to improve id uniquenes
if execution_date not in statement.statement_id:
statement.statement_id = "%s-%s" % (
execution_date, statement.statement_id)
if statement.start_balance == 0 and statement.end_balance != 0:
statement.start_balance = statement.end_balance - total_amount
_logger.debug(
_("Start balance %s calculated from end balance %s and"
" Total amount %s."),
statement.start_balance,
statement.end_balance,
total_amount
)
return statement
def check_version(self, root):
"""Validate validity of camt file."""
# Check wether it is camt at all:
re_camt = re.compile(
r'(^urn:iso:std:iso:20022:tech:xsd:camt.'
r'|^ISO:camt.)'
)
if not re_camt.search(self.namespace):
raise ValueError('no camt: ' + self.namespace)
# Check wether version 052 or 053:
re_camt_version = re.compile(
r'(^urn:iso:std:iso:20022:tech:xsd:camt.053.'
r'|^urn:iso:std:iso:20022:tech:xsd:camt.052.'
r'|^ISO:camt.053.'
r'|^ISO:camt.052.)'
)
if not re_camt_version.search(self.namespace):
raise ValueError('no camt 052 or 053: ' + self.namespace)
# Check GrpHdr element:
root_0_0 = root[0][0].tag[len(self.namespace) + 2:] # strip namespace
if root_0_0 != 'GrpHdr':
raise ValueError('expected GrpHdr, got: ' + root_0_0)
def parse(self, data):
"""Parse a camt.052 or camt.053 file."""
try:
root = etree.fromstring(
data, parser=etree.XMLParser(recover=True))
except etree.XMLSyntaxError:
# ABNAmro is known to mix up encodings
root = etree.fromstring(
data.decode('iso-8859-15').encode('utf-8'))
if root is None:
raise ValueError(
'Not a valid xml file, or not an xml file at all.')
self.namespace = root.tag[1:root.tag.index("}")]
self.check_version(root)
statements = []
for node in root[0][1:]:
statement = self.parse_statement(node)
if len(statement['transactions']):
statements.append(statement)
return statements