Yes, adding a timestamp for each record (or in some cases, a flag that captures the state of a particular record) is the right approach. The small side of a BigQuery "Small Join" can actually return at least 8MB (this value is compressed on our end, so is usually 2 to 10 times larger), so for "lookup" table type subqueries, this can actually provide a lot of records.
In your case, it's not clear to me what the exact query you are trying to run is.. it looks like you are trying to return the most recent sales times of every individual item - and then JOIN this information with the SUM of sales amt per month of each item? Can you provide more info about the query?
It might be possible to do this all in one query. For example, in our wikipedia dataset, an example might look something like...
SELECT contributor_username, UTC_USEC_TO_MONTH(timestamp * 1000000) as month,
SUM(num_characters) as total_characters_used FROM
[publicdata:samples.wikipedia] WHERE (contributor_username != '' or
contributor_username IS NOT NULL) AND timestamp > 1133395200
AND timestamp < 1157068800 GROUP BY contributor_username, month
ORDER BY contributor_username DESC, month DESC;
...to provide wikipedia contributions per user per month (like sales per month per item). This result is actually really large, so you would have to limit by date range.
UPDATE (based on comments below) a similar query that finds "num_characters" for the latest wikipedia revisions by contributors after a particular time...
SELECT current.contributor_username, current.num_characters
(SELECT contributor_username, num_characters, timestamp as time FROM [publicdata:samples.wikipedia] WHERE contributor_username != '' AND contributor_username IS NOT NULL)
(SELECT contributor_username, MAX(timestamp) as time FROM [publicdata:samples.wikipedia] WHERE contributor_username != '' AND contributor_username IS NOT NULL AND timestamp > 1265073722 GROUP BY contributor_username) AS latest
current.contributor_username = latest.contributor_username
current.time = latest.time;
If your query requires you to use first build a large aggregate (for example, you need to run essentially an accurate COUNT DISTINCT) another option is to break this query up into two queries. The first query could provide the max effective date by month along with a count and save this result as a new table. Then, could run a sum query on the resulting table.
You could also store monthly sales records in separate tables, and only query the particular table for the months you are interested in, simplifying your monthly sales summaries (this could also be a more economical use of BigQuery). When you need to find aggregates across all tables, you could run your queries with multiple tables listed after the FROM clause.