goose is a database migration tool.
You can manage your database's evolution by creating incremental SQL or Go scripts.
$ go get bitbucket.org/liamstask/goose/cmd/goose
This will install the goose
binary to your $GOPATH/bin
directory.
You can also build goose into your own applications by importing bitbucket.org/liamstask/goose/lib/goose
. Documentation is available at godoc.org.
NOTE: the API is still new, and may undergo some changes.
goose provides several commands to help manage your database schema.
Create a new Go migration.
$ goose create AddSomeColumns
$ goose: created db/migrations/20130106093224_AddSomeColumns.go
Edit the newly created script to define the behavior of your migration.
You can also create an SQL migration:
$ goose create AddSomeColumns sql
$ goose: created db/migrations/20130106093224_AddSomeColumns.sql
Apply all available migrations.
$ goose up
$ goose: migrating db environment 'development', current version: 0, target: 3
$ OK 001_basics.sql
$ OK 002_next.sql
$ OK 003_and_again.go
Use the pgschema
flag with the up
command specify a postgres schema.
$ goose -pgschema=my_schema_name up
$ goose: migrating db environment 'development', current version: 0, target: 3
$ OK 001_basics.sql
$ OK 002_next.sql
$ OK 003_and_again.go
Roll back a single migration from the current version.
$ goose down
$ goose: migrating db environment 'development', current version: 3, target: 2
$ OK 003_and_again.go
Roll back the most recently applied migration, then run it again.
$ goose redo
$ goose: migrating db environment 'development', current version: 3, target: 2
$ OK 003_and_again.go
$ goose: migrating db environment 'development', current version: 2, target: 3
$ OK 003_and_again.go
Print the status of all migrations:
$ goose status
$ goose: status for environment 'development'
$ Applied At Migration
$ =======================================
$ Sun Jan 6 11:25:03 2013 -- 001_basics.sql
$ Sun Jan 6 11:25:03 2013 -- 002_next.sql
$ Pending -- 003_and_again.go
Print the current version of the database:
$ goose dbversion
$ goose: dbversion 002
goose -h
provides more detailed info on each command.
goose supports migrations written in SQL or in Go - see the goose create
command above for details on how to generate them.
A sample SQL migration looks like:
-- +goose Up
CREATE TABLE post (
id int NOT NULL,
title text,
body text,
PRIMARY KEY(id)
);
-- +goose Down
DROP TABLE post;
Notice the annotations in the comments. Any statements following -- +goose Up
will be executed as part of a forward migration, and any statements following -- +goose Down
will be executed as part of a rollback.
By default, SQL statements are delimited by semicolons - in fact, query statements must end with a semicolon to be properly recognized by goose.
More complex statements (PL/pgSQL) that have semicolons within them must be annotated with -- +goose StatementBegin
and -- +goose StatementEnd
to be properly recognized. For example:
-- +goose Up
-- +goose StatementBegin
CREATE OR REPLACE FUNCTION histories_partition_creation( DATE, DATE )
returns void AS $$
DECLARE
create_query text;
BEGIN
FOR create_query IN SELECT
'CREATE TABLE IF NOT EXISTS histories_'
|| TO_CHAR( d, 'YYYY_MM' )
|| ' ( CHECK( created_at >= timestamp '''
|| TO_CHAR( d, 'YYYY-MM-DD 00:00:00' )
|| ''' AND created_at < timestamp '''
|| TO_CHAR( d + INTERVAL '1 month', 'YYYY-MM-DD 00:00:00' )
|| ''' ) ) inherits ( histories );'
FROM generate_series( $1, $2, '1 month' ) AS d
LOOP
EXECUTE create_query;
END LOOP; -- LOOP END
END; -- FUNCTION END
$$
language plpgsql;
-- +goose StatementEnd
A sample Go migration looks like:
package main
import (
"database/sql"
"fmt"
)
func Up_20130106222315(txn *sql.Tx) {
fmt.Println("Hello from migration 20130106222315 Up!")
}
func Down_20130106222315(txn *sql.Tx) {
fmt.Println("Hello from migration 20130106222315 Down!")
}
Up_20130106222315()
will be executed as part of a forward migration, and Down_20130106222315()
will be executed as part of a rollback.
The numeric portion of the function name (20130106222315
) must be the leading portion of migration's filename, such as 20130106222315_descriptive_name.go
. goose create
does this by default.
A transaction is provided, rather than the DB instance directly, since goose also needs to record the schema version within the same transaction. Each migration should run as a single transaction to ensure DB integrity, so it's good practice anyway.
goose expects you to maintain a folder (typically called "db"), which contains the following:
- a
dbconf.yml
file that describes the database configurations you'd like to use - a folder called "migrations" which contains
.sql
and/or.go
scripts that implement your migrations
You may use the -path
option to specify an alternate location for the folder containing your config and migrations.
A sample dbconf.yml
looks like
development:
driver: postgres
open: user=liam dbname=tester sslmode=disable
Here, development
specifies the name of the environment, and the driver
and open
elements are passed directly to database/sql to access the specified database.
You may include as many environments as you like, and you can use the -env
command line option to specify which one to use. goose defaults to using an environment called development
.
goose will expand environment variables in the open
element. For an example, see the Heroku section below.
goose knows about some common SQL drivers, but it can still be used to run Go-based migrations with any driver supported by database/sql
. An import path and known dialect are required.
Currently, available dialects are: "postgres", "mysql", or "sqlite3" (Actually, note sqlite3 in this branch).
To run Go-based migrations with another driver, specify its import path and dialect, as shown below.
customdriver:
driver: custom
open: custom open string
import: github.com/custom/driver
dialect: mysql
NOTE: Because migrations written in SQL are executed directly by the goose binary, only drivers compiled into goose may be used for these migrations.
These instructions assume that you're using Keith Rarick's Heroku Go buildpack. First, add a file to your project called (e.g.) install_goose.go
to trigger building of the goose executable during deployment, with these contents:
// use build constraints to work around http://code.google.com/p/go/issues/detail?id=4210
// +build heroku
// note: need at least one blank line after build constraint
package main
import _ "bitbucket.org/liamstask/goose/cmd/goose"
Set up your Heroku database(s) as usual.
Then make use of environment variable expansion in your dbconf.yml
:
production:
driver: postgres
open: $DATABASE_URL
To run goose in production, use heroku run
:
heroku run goose -env production up
Thank you!
- Josh Bleecher Snyder (josharian)
- Abigail Walthall (ghthor)
- Daniel Heath (danielrheath)
- Chris Baynes (chris_baynes)
- Michael Gerow (gerow)
- Vytautas Šaltenis (rtfb)
- James Cooper (coopernurse)
- Gyepi Sam (gyepisam)
- Matt Sherman (clipperhouse)
- runner_mei
- John Luebs (jkl1337)
- Luke Hutton (lukehutton)
- Kevin Gorjan (kevingorjan)
- Brendan Fosberry (Fozz)
- Nate Guerin (gusennan)