I know a key lock locks a key in an index. However, what does "key" actually mean?

For example, if I have a non-clustered index on a surname column and attempt an update where surname = "Jones", will I have effectively locked every row in the table where the surname is "Jones"? Or will the index be locked at a higher level, preventing access of rows with surnames other than "Jones"?

The reason I ask is this note in Books Online about Lock Granularity and Hierarchies:

KEY: A row lock within an index used to protect key ranges in serializable transactions.

This suggests a range of keys will be locked, not just one.

  • Does "serializable transactions" means that transaction isolation level is set to "serializable"? Because when I debugged one deadlock I saw key locks in "read committed" isolation level. – kolobok Feb 21 '18 at 15:25

A keylock affects all rows that match the given predicate (kind of) - in your example all rows with surname = 'Jones' will be affected.

The word "range" is used because depending on the predicate a range of rows may be affected, for example if the predicate was age > 18 then all rows where the age is greater than 18 would be affected.

It is also important to understand that a key lock does not simply individually locking each matching row in the index - your example keylock not only affects all existing rows in the index with surname "Jones", it also affects any attempt to modify an existing row or insert a new row with surname "Jones".

It may help to think about locks in a slightly different way - locks only have an effect when SQL Server attempts to obtain another lock which may be incompatible (i.e. it is not legal to have both locks at the same time). For example if you have an exclusive key-lock on rows with age > 18 and attempt to insert or modify a row with age = 42 then SQL server will first attempt to obtain a the relvant locks - seeing that there is an existing key lock for rows with age > 18 SQL Server determines that the locks are incompatible and takes according action.

  • Thanks a lot Kragen, your reply makes it clear. – Simon Tewsi May 16 '11 at 4:26

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