I use python3, to construct qbXML queries, and Elementree to parse the responses.
I use a non-Windows machine for developement, too. I found that I really needed QB and Python together in a Windows VM to make progress. Both QB and COM require it.
Here are a couple snippets in Python 3.1 to show how I do it:
First, use COM to connect to QuickBooks and disconnect from QuickBooks.
"""Connect a QuickBooks instance using COM. Start QB if needed"""
SessionManager = win32com.client.Dispatch("QBXMLRP2.RequestProcessor")
# Example only - insecure!
"""Disconnect from the existing Quickbooks instance."""
Next, I use python to do the logic, construct the qbXML queries, and parse the responses into an ElementTree.
import xml.etree.ElementTree as etree
def xml_query(QB_SessionManager, company_file_path, qbXML_query_string):
Do a QuickBooks QBXML query.
The query must be valid - this function doesn't do error checking.
Return an ElementTree of the XML response.
ticket = QB_SessionManager.BeginSession(company_file_path, 0)
response_string = QB_SessionManager.ProcessRequest(ticket, qbXML_query_string)
#print(response_string) # Debug tool
QBXML = etree.fromstring(response_string)
response_tree = QBXML.find('QBXMLMsgsRs')
#etree.dump(QBXML) # Debug tool
The actual qbXML query string and response string for a check query are on the qbXML reference at https://member.developer.intuit.com/qbSDK-current/Common/newOSR/index.html
There, you will see that you can download the check data filtered by payee, date range, check number range, etc.
You can chain multiple XML queries or transactions into a single large XML file. Assign each a unique request number (Example:
<CustomerQueryRq requestID="1"> ), so you can locate the proper response.
<IncludeRetElement> tag to limit the reply size, and speed the search tremendously.