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Timestamps and Multiversion CC, Plua Oracle Locking

Timestamp ordering is a technique in which a serialization order is selected aprior and transaction execution is forced to obey this order. Each transaction gets assigned a unique timestamp at startup. Conflicting operations are processed in timestamp order
CS764 Spring 2004 Lecture 4- Timestamps and Multiversion CC, Plua Oracle Locking Basic Timestamp Order • Timestamp ordering is a technique in which a serialization order is selected aprior and transaction execution is forced to obey this order. • Each transaction gets assigned a unique timestamp at startup • Conflicting operations are processed in timestamp order Operation For each data item X, DBMS records the largest time stamp of any read and/or write operation that has been processed. These are denoted: R-ts(X) and W-ts(X). RW Synchronization: • Consider a read with timestamp TS. • If TS < W_ts(X), the read is rejected and the transaction is aborted • Otherwise, the read is processed and R-ts(X) is set to max (R-ts(X), TS) • Consider a write with timestamp TS • If TS < R-ts(X), the write is rejected and the transaction is aborted • Otherwise, the write is processed and W-ts(X) is set to max (W-ts(X), TS) WW Synchronization • A write with timestamp TS is rejected if TS < W-ts(X) • Otherwise, the write is processed and W-ts(X) is set to TS • The Thomas Write Rule is an optimization in which instead of rejected the write when TS < W-ts(X), simply ignores the write Comments • When a transaction is aborted it is assigned a new and larger timestamp by the DBMS and is restarted Multiversion Time Stamp Ordering For each data item X there is a set of R-ts and a set of (W-ts, value) pairs called versions The read time stamps are the times of the reads that have been performed RW Synchronization: • Consider a read R with timestamp TS (R) • R is processed by reading the version of X with the largest time stamp less than TS(R) and TS(R) is added to the set of R-ts associated with X • R is never rejected • Consider a write W with timestamp TS. Let interval(W) be the interval from ts(W) to the smallest W-ts(X) > ts(W) (assuming one exist, infinity otherwise) • If any R-ts(X) lies in interval(W), the write is rejected. • Otherwise, write is processed and a new version of X is created with timestamp (TS). WW Synchronization • A write always creates a new version of X with timestamp ts. • Writes are never rejected Oracle Locking Uses a combination of multiversion time stamp ordering and locking Example of a CC approach that uses different mechanisms to handle R-W, W-R, and WW conflicts. Oracle uses versioning to deal with R-W and W-R conflicts and locks to deal with WW conflicts Oracle never sets read locks! Oracle’s Isolation Levels: Read Committed, Serializable, Read Only • Can be set for an individual SQL query or an entire transaction which consists of multiple SQL queries Read Committed • Enforces serialization at statement level • Each statement (query) sees only committed data • May suffer from non-repeatable reads and phantom reads o T1 is said to have had a phantom read if T2 inserts new records that would have been read by T1: T1 select * from foo where condition T2 inserts new records into foo that satisfy the condition and committs Serializable • Enforces serialization at transaction level • Each statement sees data that was committed at the start of the transaction Read Only • Prohibits update operations by the transaction Implementation Locks on stored on the data page. This originates from the DEC Vax Cluster which had a shared disk architecture. You can think of the locks as being part of the slot array An transaction that updates a record does the following sequence of operations. a) reads the data page into the buffer pool (if the page is not resident already) b) obtains a exclusive lock on the record c) copies the old version of the record to a “rollback segment” (think of the rollback segment as a place where all the updated versions of records go) d) updates the version of the record on the page and timestamps it with the timestamp of the transaction e) logs the changes to a redo log including the rollback info f) eventually commits/aborts. • If the transaction aborts the rollback segment is used to restore the version of the record to the version that existed before the update WW conflicts Assume T1 has a lock on a record (as above) T2 attempts to update the same record and will be blocked. If T1 eventually commits it will release its lock and one of the following two cases will happen: • If T2 is running at Serializable isolation level, T2 will fail and be aborted. The problem is that T2 would see data that changed after it started – this violates the Serializable isolation level of T2. • If T2 is running at Read Committed isolation level, T2 is unblocked and proceeds RW and WR conflicts T1 attempts to read some record R a) reads the data page into the buffer pool b) looks at the timestamp and Xactid of R Assume Ti is the XACTID of the last updater Three possible cases i) Ti has committed i.1) TS (Ti) < TS (T1) - use the version of R that is on the data page i.2) TS (Ti) > TS (T1) – use the rollback segment to obtain the correct version of R a) For Read Committed – want version that was committed at the time the select started b) for Serializable Isolation level – want version that was committed at the time the transaction T1 started ii) Ti has not committed use the rollback segment to obtain the correct version of the object (according to the whether the transaction is operating at Read Committed or Serializable Isolation levels Cleaning up Rollback segments - a rollback segment can be deleted when a) all transactions that generated updates that are reflected in the segment have committed and b) there are no longer any transactions that could possible read a version of a record in the rollback segment
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