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# The example from the paper "A read-only transaction anomaly under snapshot
# isolation"[1].
#
# Here we test that serializable snapshot isolation can avoid the anomaly
# without aborting any tranasctions, by instead causing s3 to be deferred
# until a safe snapshot can be taken.
#
# [1] http://www.cs.umb.edu/~poneil/ROAnom.pdf
setup
{
CREATE TABLE bank_account (id TEXT PRIMARY KEY, balance DECIMAL NOT NULL);
INSERT INTO bank_account (id, balance) VALUES ('X', 0), ('Y', 0);
}
teardown
{
DROP TABLE bank_account;
}
session "s1"
setup { BEGIN TRANSACTION ISOLATION LEVEL SERIALIZABLE; }
step "s1ry" { SELECT balance FROM bank_account WHERE id = 'Y'; }
step "s1wy" { UPDATE bank_account SET balance = 20 WHERE id = 'Y'; }
step "s1c" { COMMIT; }
session "s2"
setup { BEGIN TRANSACTION ISOLATION LEVEL SERIALIZABLE; }
step "s2rx" { SELECT balance FROM bank_account WHERE id = 'X'; }
step "s2ry" { SELECT balance FROM bank_account WHERE id = 'Y'; }
step "s2wx" { UPDATE bank_account SET balance = -11 WHERE id = 'X'; }
step "s2c" { COMMIT; }
session "s3"
setup { BEGIN TRANSACTION ISOLATION LEVEL SERIALIZABLE READ ONLY DEFERRABLE; }
step "s3r" { SELECT id, balance FROM bank_account WHERE id IN ('X', 'Y') ORDER BY id; }
step "s3c" { COMMIT; }
permutation "s2rx" "s2ry" "s1ry" "s1wy" "s1c" "s3r" "s2wx" "s2c" "s3c"
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