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Does MVCC database isolation mode allow in-progress transactions to see rows inserted (and committed) by other transactions?

For example, given:

  • Table names[id BIGINT NOT NULL, name VARCHAR(30), PRIMARY KEY(id), UNIQUE(name)]
  • Transactions T1 and T2,
T1: open transaction
T2: open transaction
T1: select * from names;
    insert into names(name) values("John");
    // do something
T2: select * from names;
    insert into names values("John");
    // do something

When does T2 first become aware of the new row? At select time? At insert time? Or at commit time?

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2 Answers 2

up vote 2 down vote accepted

Answer really depends on server implementation and whether unique constraint is marked deferrable or not.

I have not tested it for other databases, but in PostgreSQL (as one of most prominent open-source MVCC databases) in my test replicating your setup T2 fails on INSERT. However, T2 cannot see any changes made by T1 by using SELECT.

I have executed following statements almost at the same time in 2 separate SQL connections:

SELECT * FROM names;
SELECT pg_sleep(10);
INSERT INTO names values('john');
SELECT pg_sleep(10);

One succeeded, but another failed after 10 seconds with:

ERROR:  duplicate key value violates unique constraint "names_pkey"
DETAIL:  Key (name)=(john) already exists.

This makes sense, because documentation says:

If a conflicting row has been inserted by an as-yet-uncommitted transaction, the would-be inserter must wait to see if that transaction commits. If it rolls back then there is no conflict. If it commits without deleting the conflicting row again, there is a uniqueness violation.

If, however, unique constraint was marked deferrable, uniqueness will be checked at COMMIT time:

If the unique constraint is deferrable, there is additional complexity: we need to be able to insert an index entry for a new row, but defer any uniqueness-violation error until end of statement or even later.

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Interesting and unexpected. Does that mean that Postgres' MVCC implementation actually uses locks and blocks transactions? Doesn't that kind of defeat the purpose? –  Gili Dec 4 '12 at 1:17
Not necessarily. This probably was created as performance optimization - it makes sense to fail early in long transaction if it is almost certain to roll back because of constraint violations. And, you can always get "true" MVCC behavior by using deferrable constraints. –  mvp Dec 4 '12 at 4:01
As a follow-up question, if I issue a SELECT after INSERT triggers a conflict will I be able to see the newly-added record? –  Gili Dec 4 '12 at 16:04
no, you will not see it –  mvp Dec 4 '12 at 16:45
Well, that's problematic :) So I will get a conflict against an invisible row. How can I log the contents of the row causing the conflicting (for troubleshooting purposes)? –  Gili Dec 5 '12 at 4:03

No, it shows you a snapshot of the database. No new rows (phantom reads) will show up. No matter what happens, the snapshot stays the same.

This is usually implemented by marking inserted rows with a time stamp and, when reading, silently discarding rows that have been inserted newer than the start of the transaction.

T2, in your example, never becomes aware of the new rows because after the commit the old transaction is finished. Only a new transaction would see the rows inserted (in this case, "T3").

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It is not that simple. In Postgres T2 will fail on insert –  mvp Dec 3 '12 at 0:14
Oh, I overlooked that both trans write to the same row. Yes, the implementation decides in case of writes. Usually there isn't much choice but to fail one of the writes. An RDBMS also could fall back to pessimistic locking. Newer NoSQL databases sometimes allow saving both record versions which are being merged by a background process in a semantic way. Many things are possible in case of conflicting writes. –  usr Dec 3 '12 at 0:16
From practical experience I can tell that MVCC is most useful in taking read-only transactions out of the equation. One can eliminate all contention stemming from them. They don't block nor are they ever blocked. Once writes come into play, MVCC gets less usefull. –  usr Dec 3 '12 at 0:17
@usr, out of curiosity, why do non-MVCC databases need to block read-only transactions? –  Gili Dec 4 '12 at 1:27
It is called "read committed" because all trans only see committed values. If a different in-flight tran updates row the new values are not committed. As is is a single-version-database the old version is not available (it once was a committed value so it can be legally read) so the reader has to wait. –  usr Dec 4 '12 at 5:11

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