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README.md
Postgrex
PostgreSQL driver for Elixir.
Documentation: http://hexdocs.pm/postgrex/
Examples
iex> {:ok, pid} = Postgrex.start_link(hostname: "localhost", username: "postgres", password: "postgres", database: "postgres")
{:ok, #PID<0.69.0>}
iex> Postgrex.query!(pid, "SELECT user_id, text FROM comments", [])
%Postgrex.Result{command: :select, empty?: false, columns: ["user_id", "text"], rows: [[3,"hey"],[4,"there"]], size: 2}}
iex> Postgrex.query!(pid, "INSERT INTO comments (user_id, text) VALUES (10, 'heya')", [])
%Postgrex.Result{command: :insert, columns: nil, rows: nil, num_rows: 1}}
Features
- Automatic decoding and encoding of Elixir values to and from PostgreSQL's binary format
- User defined extensions for encoding and decoding any PostgreSQL type
- Supports transactions, prepared queries and multiple pools via DBConnection
- Supports PostgreSQL 8.4, 9.0-9.6, and later (hstore is not supported on 8.4)
Data representation
PostgreSQL Elixir
---------- ------
NULL nil
bool true | false
char "é"
int 42
float 42.0
text "eric"
bytea <<42>>
numeric #Decimal<42.0> *
date %Date{year: 2013, month: 10, day: 12}
time(tz) %Time{hour: 0, minute: 37, second: 14} **
timestamp %NaiveDateTime{year: 2013, month: 10, day: 12, hour: 0, minute: 37, second: 14}
timestamptz %DateTime{year: 2013, month: 10, day: 12, hour: 0, minute: 37, second: 14, time_zone: "Etc/UTC"} **
interval %Postgrex.Interval{months: 14, days: 40, secs: 10920, microsecs: 315}
array [1, 2, 3]
composite type {42, "title", "content"}
range %Postgrex.Range{lower: 1, upper: 5}
multirange %Postgrex.Multirange{ranges: [%Postgrex.Range{lower: 1, upper: 5}, %Postgrex.Range{lower: 20, upper: 23}]}
uuid <<160,238,188,153,156,11,78,248,187,109,107,185,189,56,10,17>>
hstore %{"foo" => "bar"}
oid types 42
enum "ok" ***
bit << 1::1, 0::1 >>
varbit << 1::1, 0::1 >>
tsvector [%Postgrex.Lexeme{positions: [{1, :A}], word: "a"}]
* Decimal
** Timezones will always be normalized to UTC or assumed to be UTC when no information is available, either by PostgreSQL or Postgrex
*** Enumerated types (enum) are custom named database types with strings as values.
**** Anonymous composite types are decoded (read) as tuples but they cannot be encoded (written) to the database
Postgrex does not automatically cast between types. For example, you can't pass a string where a date is expected. To add type casting, support new types, or change how any of the types above are encoded/decoded, you can use extensions.
JSON support
Postgrex comes with JSON support out of the box via the Jason library. To use it, add :jason to your dependencies:
{:jason, "~> 1.0"}
You can customize it to use another library via the :json_library
configuration:
config :postgrex, :json_library, SomeOtherLib
Once you change the value, you have to recompile Postgrex, which can be done by cleaning its current build:
mix deps.clean postgrex --build
Extensions
Extensions are used to extend Postgrex' built-in type encoding/decoding.
The extensions directory in this project provides implementation for many Postgres' built-in data types. It is also a great example of how to implement your own extensions. For example, you can look at the Date
extension as a starting point.
Once you defined your extensions, you should build custom type modules, passing all of your extensions as arguments:
Postgrex.Types.define(MyApp.PostgrexTypes, [MyApp.Postgis.Extensions], [])
Postgrex.Types.define/3
must be called on its own file, outside of any module and function, as it only needs to be defined once during compilation.
Once a type module is defined, you must specify it on start_link
:
Postgrex.start_link(types: MyApp.PostgrexTypes)
OID type encoding
PostgreSQL's wire protocol supports encoding types either as text or as binary. Unlike most client libraries Postgrex uses the binary protocol, not the text protocol. This allows for efficient encoding of types (e.g. 4-byte integers are encoded as 4 bytes, not as a string of digits) and automatic support for arrays and composite types.
Unfortunately the PostgreSQL binary protocol transports OID types as integers while the text protocol transports them as string of their name, if one exists, and otherwise as integer.
This means you either need to supply oid types as integers or perform an explicit cast (which would be automatic when using the text protocol) in the query.
# Fails since $1 is regclass not text.
query("select nextval($1)", ["some_sequence"])
# Perform an explicit cast, this would happen automatically when using a
# client library that uses the text protocol.
query("select nextval($1::text::regclass)", ["some_sequence"])
# Determine the oid once and store it for later usage. This is the most
# efficient way, since PostgreSQL only has to perform the lookup once. Client
# libraries using the text protocol do not support this.
%{rows: [{sequence_oid}]} = query("select $1::text::regclass", ["some_sequence"])
query("select nextval($1)", [sequence_oid])
PgBouncer
When using PgBouncer with transaction or statement pooling named prepared queries can not be used because the bouncer may route requests from the same postgrex connection to different PostgreSQL backend processes and discards named queries after the transactions closes. To force unnamed prepared queries:
Postgrex.start_link(prepare: :unnamed)
Contributing
To contribute you need to compile Postgrex from source and test it:
$ git clone https://github.com/elixir-ecto/postgrex.git
$ cd postgrex
$ mix test
The tests requires some modifications to your hba file. The path to it can be found by running $ psql -U postgres -c "SHOW hba_file"
in your shell. Put the following above all other configurations (so that they override):
local all all trust
host all postgrex_md5_pw 127.0.0.1/32 md5
host all postgrex_cleartext_pw 127.0.0.1/32 password
host all postgrex_scram_pw 127.0.0.1/32 scram-sha-256
The server needs to be restarted for the changes to take effect. Additionally you need to setup a PostgreSQL user with the same username as the local user and give it trust or ident in your hba file. Or you can export $PGUSER and $PGPASSWORD before running tests.
Testing hstore on 9.0
PostgreSQL versions 9.0 does not have the CREATE EXTENSION
commands. This means we have to locate the postgres installation and run the hstore.sql
in contrib
to install hstore
. Below is an example command to test 9.0 on OS X with homebrew installed postgres:
$ PGVERSION=9.0 PGPATH=/usr/local/share/postgresql9/ mix test
License
Copyright 2013 Eric Meadows-Jönsson
Licensed under the Apache License, Version 2.0 (the "License"); you may not use this file except in compliance with the License. You may obtain a copy of the License at
http://www.apache.org/licenses/LICENSE-2.0
Unless required by applicable law or agreed to in writing, software distributed under the License is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the License for the specific language governing permissions and limitations under the License.