76f965ff1f
If we have a local Var of say varchar type with default collation, and we apply a RelabelType to convert that to text with default collation, we don't want to consider that as creating an FDW_COLLATE_UNSAFE situation. It should be okay to compare that to a remote Var, so long as the remote Var determines the comparison collation. (When we actually ship such an expression to the remote side, the local Var would become a Param with default collation, meaning the remote Var would in fact control the comparison collation, because non-default implicit collation overrides default implicit collation in parse_collate.c.) To fix, be more precise about what FDW_COLLATE_NONE means: it applies either to a noncollatable data type or to a collatable type with default collation, if that collation can't be traced to a remote Var. (When it can, FDW_COLLATE_SAFE is appropriate.) We were essentially using that interpretation already at the Var/Const/Param level, but we weren't bubbling it up properly. An alternative fix would be to introduce a separate FDW_COLLATE_DEFAULT value to describe the second situation, but that would add more code without changing the actual behavior, so it didn't seem worthwhile. Also, since we're clarifying the rule to be that we care about whether operator/function input collations match, there seems no need to fail immediately upon seeing a Const/Param/non-foreign-Var with nondefault collation. We only have to reject if it appears in a collation-sensitive context (for example, "var IS NOT NULL" is perfectly safe from a collation standpoint, whatever collation the var has). So just set the state to UNSAFE rather than failing immediately. Per report from Jeevan Chalke. This essentially corrects some sloppy thinking in commit ed3ddf918b59545583a4b374566bc1148e75f593, so back-patch to 9.3 where that logic appeared.
The PostgreSQL contrib tree
---------------------------
This subtree contains porting tools, analysis utilities, and plug-in
features that are not part of the core PostgreSQL system, mainly
because they address a limited audience or are too experimental to be
part of the main source tree. This does not preclude their
usefulness.
User documentation for each module appears in the main SGML
documentation.
When building from the source distribution, these modules are not
built automatically, unless you build the "world" target. You can
also build and install them all by running "make all" and "make
install" in this directory; or to build and install just one selected
module, do the same in that module's subdirectory.
Some directories supply new user-defined functions, operators, or
types. To make use of one of these modules, after you have installed
the code you need to register the new SQL objects in the database
system by executing a CREATE EXTENSION command. In a fresh database,
you can simply do
CREATE EXTENSION module_name;
See the PostgreSQL documentation for more information about this
procedure.