If an FDW's underlying storage mechanism has a concept of locking individual rows to prevent concurrent updates of those rows, it is usually worthwhile for the FDW to perform row-level locking with as close an approximation as practical to the semantics used in ordinary LightDB tables. There are multiple considerations involved in this.
One key decision to be made is whether to perform early locking or late locking. In early locking, a row is locked when it is first retrieved from the underlying store, while in late locking, the row is locked only when it is known that it needs to be locked. (The difference arises because some rows may be discarded by locally-checked restriction or join conditions.) Early locking is much simpler and avoids extra round trips to a remote store, but it can cause locking of rows that need not have been locked, resulting in reduced concurrency or even unexpected deadlocks. Also, late locking is only possible if the row to be locked can be uniquely re-identified later. Preferably the row identifier should identify a specific version of the row, as LightDB TIDs do.
By default, LightDB ignores locking considerations when interfacing to FDWs, but an FDW can perform early locking without any explicit support from the core code. The API functions described in Section 53.2.5, which were added in LightDB 9.5, allow an FDW to use late locking if it wishes.
An additional consideration is that in READ COMMITTED
isolation mode, LightDB may need to re-check
restriction and join conditions against an updated version of some
target tuple. Rechecking join conditions requires re-obtaining copies
of the non-target rows that were previously joined to the target tuple.
When working with standard LightDB tables, this is
done by including the TIDs of the non-target tables in the column list
projected through the join, and then re-fetching non-target rows when
required. This approach keeps the join data set compact, but it
requires inexpensive re-fetch capability, as well as a TID that can
uniquely identify the row version to be re-fetched. By default,
therefore, the approach used with foreign tables is to include a copy of
the entire row fetched from a foreign table in the column list projected
through the join. This puts no special demands on the FDW but can
result in reduced performance of merge and hash joins. An FDW that is
capable of meeting the re-fetch requirements can choose to do it the
first way.
For an UPDATE
or DELETE
on a foreign table, it
is recommended that the ForeignScan
operation on the target
table perform early locking on the rows that it fetches, perhaps via the
equivalent of SELECT FOR UPDATE
. An FDW can detect whether
a table is an UPDATE
/DELETE
target at plan time
by comparing its relid to root->parse->resultRelation
,
or at execution time by using ExecRelationIsTargetRelation()
.
An alternative possibility is to perform late locking within the
ExecForeignUpdate
or ExecForeignDelete
callback, but no special support is provided for this.
For foreign tables that are specified to be locked by a SELECT
FOR UPDATE/SHARE
command, the ForeignScan
operation can
again perform early locking by fetching tuples with the equivalent
of SELECT FOR UPDATE/SHARE
. To perform late locking
instead, provide the callback functions defined
in Section 53.2.5.
In GetForeignRowMarkType
, select rowmark option
ROW_MARK_EXCLUSIVE
, ROW_MARK_NOKEYEXCLUSIVE
,
ROW_MARK_SHARE
, or ROW_MARK_KEYSHARE
depending
on the requested lock strength. (The core code will act the same
regardless of which of these four options you choose.)
Elsewhere, you can detect whether a foreign table was specified to be
locked by this type of command by using get_plan_rowmark
at
plan time, or ExecFindRowMark
at execution time; you must
check not only whether a non-null rowmark struct is returned, but that
its strength
field is not LCS_NONE
.
Lastly, for foreign tables that are used in an UPDATE
,
DELETE
or SELECT FOR UPDATE/SHARE
command but
are not specified to be row-locked, you can override the default choice
to copy entire rows by having GetForeignRowMarkType
select
option ROW_MARK_REFERENCE
when it sees lock strength
LCS_NONE
. This will cause RefetchForeignRow
to
be called with that value for markType
; it should then
re-fetch the row without acquiring any new lock. (If you have
a GetForeignRowMarkType
function but don't wish to re-fetch
unlocked rows, select option ROW_MARK_COPY
for LCS_NONE
.)
See src/include/nodes/lockoptions.h
, the comments
for RowMarkType
and PlanRowMark
in src/include/nodes/plannodes.h
, and the comments for
ExecRowMark
in src/include/nodes/execnodes.h
for
additional information.