As I told in comments I don't advice to pollute data tables with history/auditory stuff.
And no: "double versioning" suggested by @Josh_Eller in his comment isn't a
good solution too: Not only for complicating queries unnecessarily but also for
being much more expensive in terms of processing and tablespace fragmentation.
Take in mind that UPDATE operations never update anything. They instead
write a whole new version of the row and mark the old one as deleted. That's
why vacuum processes are needed to defragment tablespaces in order to
recover that space.
In any case, apart of suboptimal, that approach forces you to implement more
complex queries to read and write data while in fact, I suppose most of the times you will only need to select, insert, update or even delete single row and only eventually, look its history up.
So the best solution (IMHO) is to simply implement the schema you actually need
for your main task and implement the auditory aside in a separate table and
maintained by a trigger.
This would be much more:
Robust and Simple: Because you focus on single thing every time (Single
Responsibility and KISS principles).
Fast: Auditory operations can be performed in an after trigger so
every time you perform an INSERT, UPDATE, or DELETE any possible lock
within the transaction is yet freed because the database engine knows that its outcome won't change.
Efficient: I.e. an update will, of course, insert a new row and mark
the old one as deleted. But this will be done at a low level by the database engine and, more than that: your auditory data will be fully unfragmented (because you only write there: never update). So the overall fragmentation would be always much less.
That being said, how to implement it?
Suppose this simple schema:
create table comments (
mtime timestamp not null default now(),
id serial primary key
create table comments_audit ( -- Or audit.comments if using separate schema
mtime timestamp not null,
rev integer not null,
primary key (id, rev)
...and then this function and trigger:
create or replace function fn_comments_audit()
-- This allows you to restrict permissions to the auditory table
-- because the function will be executed by the user who defined
-- it instead of whom executed the statement which triggered it.
if TG_OP = 'DELETE' then
raise exception 'FATAL: Deletion is not allowed for %', TG_TABLE_NAME;
-- If you want to allow deletion there are a few more decisions to take...
-- So here I block it for the sake of simplicity ;-)
insert into comments_audit (
) values (
, coalesce (
(select max(rev) + 1 from comments_audit where id = new.ID)
create trigger tg_comments_audit
after insert or update or delete
for each row
execute procedure fn_comments_audit()
And that's all.
Notice that in this approach you will have always your current comments data
in comments_audit. You could have instead used the OLD register and only
define the trigger in the UPDATE (and DELETE) operations to avoid it.
But I prefer this approach not only because it gives us an extra redundancy (an
accidental deletion -in case it were allowed or the trigger where accidentally
disabled- on the master table, then we would be able to recover all data from
the auditory one) but also because it simplifies (and optimises) querying the
history when it's needed.
Now you only need to insert, update or select (or even delete if you develop a little more this schema, i.e. by inserting a row with nulls...) in a fully transparent manner just like if it weren't any auditory system. And, when you need that data, you only need to query the auditory table instead.
NOTE: Additionally you could want to include a creation timestamp (ctime). In this case it would be interesting to prevent it of being modified in a BEFORE trigger so I omitted it (for the sake of simplicity again) because you can already guess it from the mtimes in the auditory table (even if you are going to use it in your application it would be very advisable to add it).