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It is recognized that decisions were made that may not always be ideal for a
given user. In order to highlight those potential issues and hopefully bring
some sense into a confusing situation, this document was drawn.
Non-English Locales
-------------------
Many non-english locales are not supported due to the localization of the severity field
in messages and errors sent to the client. Internally, py-postgresql uses this to allow
client side filtering of messages and to identify FATAL connection errors that allow the
client to recognize that it should be expecting the connection to terminate.
Thread Safety
-------------
py-postgresql connection operations are not thread safe.
`client_encoding` setting should be altered carefully
-----------------------------------------------------
`postgresql.driver`'s streaming cursor implementation reads a fixed set of rows
when it queries the server for more. In order to optimize some situations, the
driver will send a request for more data, but makes no attempt to wait and
process the data as it is not yet needed. When the user comes back to read more
data from the cursor, it will then look at this new data. The problem being, if
`client_encoding` was switched, it may use the wrong codec to transform the
wire data into higher level Python objects(str).
To avoid this problem from ever happening, set the `client_encoding` early.
Furthermore, it is probably best to never change the `client_encoding` as the
driver automatically makes the necessary transformation to Python strings.
The user and password is correct, but it does not work when using `postgresql.driver`
-------------------------------------------------------------------------------------
This issue likely comes from the possibility that the information sent to the
server early in the negotiation phase may not be in an encoding that is
consistent with the server's encoding.
One problem is that PostgreSQL does not provide the client with the server
encoding early enough in the negotiation phase, and, therefore, is unable to
process the password data in a way that is consistent with the server's
expectations.
Another problem is that PostgreSQL takes much of the data in the startup message
as-is, so a decision about the best way to encode parameters is difficult.
The easy way to avoid *most* issues with this problem is to initialize the
database in the `utf-8` encoding. The driver defaults the expected server
encoding to `utf-8`. However, this can be overridden by creating the `Connector`
with a `server_encoding` parameter. Setting `server_encoding` to the proper
value of the target server will allow the driver to properly encode *some* of
the parameters. Also, any GUC parameters passed via the `settings` parameter
should use typed objects when possible to hint that the server encoding should
not be used on that parameter(`bytes`, for instance).
Backslash characters are being treated literally
------------------------------------------------
The driver enables standard compliant strings. Stop using non-standard features.
;)
If support for non-standard strings was provided it would require to the
driver to provide subjective quote interfaces(eg, db.quote_literal). Doing so is
not desirable as it introduces difficulties for the driver *and* the user.
Types without binary support in the driver are unsupported in arrays and records
--------------------------------------------------------------------------------
When an array or composite type is identified, `postgresql.protocol.typio`
ultimately chooses the binary format for the transfer of the column or
parameter. When this is done, PostgreSQL will pack or expect *all* the values
in binary format as well. If that binary format is not supported and the type
is not an string, it will fail to unpack the row or pack the appropriate data for
the element or attribute.
In most cases issues related to this can be avoided with explicit casts to text.
NOTICEs, WARNINGs, and other messages are too verbose
-----------------------------------------------------
For many situations, the information provided with database messages is
far too verbose. However, considering that py-postgresql is a programmer's
library, the default of high verbosity is taken with the express purpose of
allowing the programmer to "adjust the volume" until appropriate.
By default, py-postgresql adjusts the ``client_min_messages`` to only emit
messages at the WARNING level or higher--ERRORs, FATALs, and PANICs.
This reduces the number of messages generated by most connections dramatically.
If further customization is needed, the :ref:`db_messages` section has
information on overriding the default action taken with database messages.
Strange TypeError using load_rows() or load_chunks()
----------------------------------------------------
When a prepared statement is directly executed using ``__call__()``, it can easily
validate that the appropriate number of parameters are given to the function.
When ``load_rows()`` or ``load_chunks()`` is used, any tuple in the
the entire sequence can cause this TypeError during the loading process::
TypeError: inconsistent items, N processors and M items in row
This exception is raised by a generic processing routine whose functionality
is abstract in nature, so the message is abstract as well. It essentially means
that a tuple in the sequence given to the loading method had too many or too few
items.
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