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200 lines
6 KiB
Go
200 lines
6 KiB
Go
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/*
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SQL Schema migration tool for Go.
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Key features:
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* Usable as a CLI tool or as a library
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* Supports SQLite, PostgreSQL, MySQL, MSSQL and Oracle databases (through gorp)
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* Can embed migrations into your application
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* Migrations are defined with SQL for full flexibility
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* Atomic migrations
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* Up/down migrations to allow rollback
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* Supports multiple database types in one project
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Installation
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To install the library and command line program, use the following:
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go get github.com/rubenv/sql-migrate/...
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Command-line tool
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The main command is called sql-migrate.
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$ sql-migrate --help
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usage: sql-migrate [--version] [--help] <command> [<args>]
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Available commands are:
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down Undo a database migration
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redo Reapply the last migration
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status Show migration status
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up Migrates the database to the most recent version available
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Each command requires a configuration file (which defaults to dbconfig.yml, but can be specified with the -config flag). This config file should specify one or more environments:
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development:
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dialect: sqlite3
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datasource: test.db
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dir: migrations/sqlite3
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production:
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dialect: postgres
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datasource: dbname=myapp sslmode=disable
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dir: migrations/postgres
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table: migrations
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The `table` setting is optional and will default to `gorp_migrations`.
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The environment that will be used can be specified with the -env flag (defaults to development).
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Use the --help flag in combination with any of the commands to get an overview of its usage:
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$ sql-migrate up --help
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Usage: sql-migrate up [options] ...
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Migrates the database to the most recent version available.
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Options:
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-config=config.yml Configuration file to use.
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-env="development" Environment.
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-limit=0 Limit the number of migrations (0 = unlimited).
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-dryrun Don't apply migrations, just print them.
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The up command applies all available migrations. By contrast, down will only apply one migration by default. This behavior can be changed for both by using the -limit parameter.
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The redo command will unapply the last migration and reapply it. This is useful during development, when you're writing migrations.
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Use the status command to see the state of the applied migrations:
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$ sql-migrate status
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+---------------+-----------------------------------------+
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| MIGRATION | APPLIED |
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+---------------+-----------------------------------------+
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| 1_initial.sql | 2014-09-13 08:19:06.788354925 +0000 UTC |
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| 2_record.sql | no |
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+---------------+-----------------------------------------+
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Library
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Import sql-migrate into your application:
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import "github.com/rubenv/sql-migrate"
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Set up a source of migrations, this can be from memory, from a set of files or from bindata (more on that later):
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// Hardcoded strings in memory:
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migrations := &migrate.MemoryMigrationSource{
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Migrations: []*migrate.Migration{
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&migrate.Migration{
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Id: "123",
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Up: []string{"CREATE TABLE people (id int)"},
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Down: []string{"DROP TABLE people"},
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},
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},
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}
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// OR: Read migrations from a folder:
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migrations := &migrate.FileMigrationSource{
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Dir: "db/migrations",
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}
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// OR: Use migrations from bindata:
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migrations := &migrate.AssetMigrationSource{
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Asset: Asset,
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AssetDir: AssetDir,
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Dir: "migrations",
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}
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Then use the Exec function to upgrade your database:
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db, err := sql.Open("sqlite3", filename)
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if err != nil {
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// Handle errors!
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}
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n, err := migrate.Exec(db, "sqlite3", migrations, migrate.Up)
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if err != nil {
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// Handle errors!
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}
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fmt.Printf("Applied %d migrations!\n", n)
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Note that n can be greater than 0 even if there is an error: any migration that succeeded will remain applied even if a later one fails.
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The full set of capabilities can be found in the API docs below.
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Writing migrations
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Migrations are defined in SQL files, which contain a set of SQL statements. Special comments are used to distinguish up and down migrations.
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-- +migrate Up
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-- SQL in section 'Up' is executed when this migration is applied
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CREATE TABLE people (id int);
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-- +migrate Down
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-- SQL section 'Down' is executed when this migration is rolled back
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DROP TABLE people;
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You can put multiple statements in each block, as long as you end them with a semicolon (;).
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If you have complex statements which contain semicolons, use StatementBegin and StatementEnd to indicate boundaries:
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-- +migrate Up
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CREATE TABLE people (id int);
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-- +migrate StatementBegin
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CREATE OR REPLACE FUNCTION do_something()
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returns void AS $$
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DECLARE
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create_query text;
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BEGIN
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-- Do something here
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END;
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$$
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language plpgsql;
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-- +migrate StatementEnd
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-- +migrate Down
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DROP FUNCTION do_something();
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DROP TABLE people;
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The order in which migrations are applied is defined through the filename: sql-migrate will sort migrations based on their name. It's recommended to use an increasing version number or a timestamp as the first part of the filename.
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Embedding migrations with bindata
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If you like your Go applications self-contained (that is: a single binary): use bindata (https://github.com/jteeuwen/go-bindata) to embed the migration files.
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Just write your migration files as usual, as a set of SQL files in a folder.
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Then use bindata to generate a .go file with the migrations embedded:
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go-bindata -pkg myapp -o bindata.go db/migrations/
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The resulting bindata.go file will contain your migrations. Remember to regenerate your bindata.go file whenever you add/modify a migration (go generate will help here, once it arrives).
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Use the AssetMigrationSource in your application to find the migrations:
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migrations := &migrate.AssetMigrationSource{
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Asset: Asset,
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AssetDir: AssetDir,
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Dir: "db/migrations",
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}
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Both Asset and AssetDir are functions provided by bindata.
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Then proceed as usual.
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Extending
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Adding a new migration source means implementing MigrationSource.
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type MigrationSource interface {
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FindMigrations() ([]*Migration, error)
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}
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The resulting slice of migrations will be executed in the given order, so it should usually be sorted by the Id field.
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*/
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package migrate
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