Foreign Data Wrapper Query Planning
PostgreSQL 9.3.23 Documentation | ||||
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The FDW callback functions
GetForeignRelSize
,
GetForeignPaths
,
GetForeignPlan
, and
PlanForeignModify
must fit into the workings of the
PostgreSQL
planner. Here are some notes about what
they must do.
The information in root and baserel can be used to reduce the amount of information that has to be fetched from the foreign table (and therefore reduce the cost). baserel->baserestrictinfo is particularly interesting, as it contains restriction quals ( WHERE clauses) that should be used to filter the rows to be fetched. (The FDW itself is not required to enforce these quals, as the core executor can check them instead.) baserel->reltargetlist can be used to determine which columns need to be fetched; but note that it only lists columns that have to be emitted by the ForeignScan plan node, not columns that are used in qual evaluation but not output by the query.
Various private fields are available for the FDW planning functions to keep information in. Generally, whatever you store in FDW private fields should be palloc'd, so that it will be reclaimed at the end of planning.
baserel->fdw_private
is a
void
pointer that is
available for FDW planning functions to store information relevant to
the particular foreign table. The core planner does not touch it except
to initialize it to NULL when the
baserel
node is created.
It is useful for passing information forward from
GetForeignRelSize
to
GetForeignPaths
and/or
GetForeignPaths
to
GetForeignPlan
, thereby
avoiding recalculation.
GetForeignPaths
can identify the meaning of different
access paths by storing private information in the
fdw_private
field of
ForeignPath
nodes.
fdw_private
is declared as a
List
pointer, but
could actually contain anything since the core planner does not touch
it. However, best practice is to use a representation that's dumpable
by
nodeToString
, for use with debugging support available
in the backend.
GetForeignPlan
can examine the
fdw_private
field of the selected
ForeignPath
node, and can generate
fdw_exprs
and
fdw_private
lists to be
placed in the
ForeignScan
plan node, where they will be
available at execution time. Both of these lists must be
represented in a form that
copyObject
knows how to copy.
The
fdw_private
list has no other restrictions and is
not interpreted by the core backend in any way. The
fdw_exprs
list, if not NIL, is expected to contain
expression trees that are intended to be executed at run time. These
trees will undergo post-processing by the planner to make them fully
executable.
In
GetForeignPlan
, generally the passed-in target list can
be copied into the plan node as-is. The passed scan_clauses list
contains the same clauses as
baserel->baserestrictinfo
,
but may be re-ordered for better execution efficiency. In simple cases
the FDW can just strip
RestrictInfo
nodes from the
scan_clauses list (using
extract_actual_clauses
) and put
all the clauses into the plan node's qual list, which means that all the
clauses will be checked by the executor at run time. More complex FDWs
may be able to check some of the clauses internally, in which case those
clauses can be removed from the plan node's qual list so that the
executor doesn't waste time rechecking them.
As an example, the FDW might identify some restriction clauses of the
form
foreign_variable
=
sub_expression
, which it determines can be executed on
the remote server given the locally-evaluated value of the
sub_expression
. The actual identification of such a
clause should happen during
GetForeignPaths
, since it would
affect the cost estimate for the path. The path's
fdw_private
field would probably include a pointer to
the identified clause's
RestrictInfo
node. Then
GetForeignPlan
would remove that clause from scan_clauses,
but add the
sub_expression
to
fdw_exprs
to ensure that it gets massaged into executable form. It would probably
also put control information into the plan node's
fdw_private
field to tell the execution functions what
to do at run time. The query transmitted to the remote server would
involve something like
WHERE
foreign_variable
=
$1
, with the parameter value obtained at run time from
evaluation of the
fdw_exprs
expression tree.
The FDW should always construct at least one path that depends only on
the table's restriction clauses. In join queries, it might also choose
to construct path(s) that depend on join clauses, for example
foreign_variable
=
local_variable
. Such clauses will not be found in
baserel->baserestrictinfo
but must be sought in the
relation's join lists. A path using such a clause is called a
"parameterized path"
. It must identify the other relations
used in the selected join clause(s) with a suitable value of
param_info
; use
get_baserel_parampathinfo
to compute that value. In
GetForeignPlan
, the
local_variable
portion of the join clause would be added
to
fdw_exprs
, and then at run time the case works the
same as for an ordinary restriction clause.
When planning an
UPDATE
or
DELETE
,
PlanForeignModify
can look up the
RelOptInfo
struct for the foreign table and make use of the
baserel->fdw_private
data previously created by the
scan-planning functions. However, in
INSERT
the target
table is not scanned so there is no
RelOptInfo
for it.
The
List
returned by
PlanForeignModify
has
the same restrictions as the
fdw_private
list of a
ForeignScan
plan node, that is it must contain only
structures that
copyObject
knows how to copy.
For an UPDATE or DELETE against an external data source that supports concurrent updates, it is recommended that the ForeignScan operation lock the rows that it fetches, perhaps via the equivalent of SELECT FOR UPDATE . The FDW may also choose to lock rows at fetch time when the foreign table is referenced in a SELECT FOR UPDATE/SHARE ; if it does not, the FOR UPDATE or FOR SHARE option is essentially a no-op so far as the foreign table is concerned. This behavior may yield semantics slightly different from operations on local tables, where row locking is customarily delayed as long as possible: remote rows may get locked even though they subsequently fail locally-applied restriction or join conditions. However, matching the local semantics exactly would require an additional remote access for every row, and might be impossible anyway depending on what locking semantics the external data source provides.