Thanks a lot. I will integrate named connections as proposed by the most recent version of dblink as soon as possible.
Thanks for doing the configure stuff. What we need is Oracle's OCI interface and libsqlora (http://www.poitschke.de/libsqlora8/).
I was thinking that we should be merging dblink_ora (and eventually jdbclink) into dblink. If you wanted to start down that road, here are my thoughts on how that should be done.
dblink functions can be roughly divided into three groups. I'll address each one separately:
1) connection related
SQL interface: -------------- 1.a dblink_connect (text <conn_str>) 1.b dblink_connect (text <conn_name>, text <conn_str>) 1.c dblink_disconnect () 1.d dblink_disconnect (text <conn_name>)
To these I would add: 1.e dblink_connect (text <name>, text <conn_str>, text <conn_type>)
Acceptable values for <conn_type> would be 'postgres', 'oracle', and eventually 'jdbc', non-case-sensitive. New types could be added to this list later if/when other connection types are developed.
1.a and 1.b would default to type 'postgres'. Hence the only way to get a non-postgres connection would be to use a named persistent connection, but I think that makes sense anyway.
Implementation: --------------- There are actually only two underlying functions, dblink_connect() and dblink_disconnect(). Both of these should be modified so that the mode (i.e. unnamed_default, named_default, named_with_type) is discovered based on the arguments, then the real work farmed out to connection type specific functions. I'm not entirely sure how it should be handled when, for instance, the oracle library is not found by configure. I suppose in that case you can use #ifdef's to provide stubs with appropriate error messages.
2) connection consumers
SQL interface: -------------- 2.a dblink_open (text <cursor_name>, text <sql>) 2.b dblink_fetch (text <cursor_name>, int <num>) 2.c dblink_close (text <cursor_name>) 2.d dblink (text <sql>) 2.e dblink_exec (text <sql>) 2.f dblink_open (text <conn_name>, text <cursor_name>, text <sql>) 2.g dblink_fetch (text <conn_name>, text <cursor_name>, int <num>) 2.h dblink_close (text <conn_name>, text <cursor_name>) 2.i dblink (text <conn_name_or_str>, text <sql>) 2.j dblink_exec (text <conn_name_or_str>, text <sql>)
2.a - 2.e all use the unnamed connection and therefore only apply to connections of type 'postgres'
2.f - 2.h all use named connections
2.i and 2.j can use named connections or connection strings
The existing named connections functions can be made to work with <conn_type> == 'oracle', etc. It probably makes sense to add two functions: 2.k dblink (text <conn_str>, text <conn_type>, text <sql>) 2.l dblink_exec (text <conn_str>, text <conn_type>, text <sql>) This would allow dynamic specification of connections to connection types other than 'postgres'.
Implementation: --------------- Similar to the above, there is only one underlying function for each SQL function name. These should be modified in a similar manner as the connection functions.
3) miscellaneous utility functions
SQL interface: -------------- 3.a dblink_get_pkey 3.b dblink_build_sql_insert 3.c dblink_build_sql_delete 3.d dblink_build_sql_update 3.e dblink_current_query
These functions don't use libpq, they use SPI or other internals. I wouldn't try to support other types of databases for them.
Joe, you have told me some time ago that you are planning some sort of connection table which tells dblink to establish some connections automatically. Did you work on that?No, I wouldn't worry too much about that right now.
Comments?
Joe
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