| Safe Haskell | None |
|---|---|
| Language | Haskell2010 |
Moto
Contents
Description
moto is a library for describing and running migrations.
A migration is any code that changes the environment somehow. The stereotypical example of a migration is code that modifies the schema of a database, but really anything that changes the environment somehow can be seen as a migration. For example, moving a file to a different directory or host, installing a package, deploying infrastructure, etc.
Essentially, a migration is a glorified bash script to which we hold dear because
of how devastating it can be for our project if we get it wrong. moto
understands this, so it is very careful about how, when, where and why it runs
these migrations, paying special attention to what happens when something goes
wrong. Of course, this being Haskell, we are encouraged to use domain specific
tools that can prevent us from accidentally writing the wrong migration code
(e.g., deleting a database rather than modifying it).
In moto we can specify migrations in such a way that any data that is going
modified or deleted by a migration can be backed up for us in one or more
storages of our choice. If anything goes wrong, or if we latter decide to undo
these changes, then this backup will be automatically made available to us.
moto is excellent for teams, where multiple collaborators can add new
migrations to the project at the same time, establishing dependencies between
them by saying “this migration needs to run before that other one” as a graph.
At compile time, moto will ensure whether there is at least one way to execute
these migrations graph sequentially, or fail to compile otherwise. And at
runtime, it will execute this graph in any way that's compatible with the
environment where the migrations are being run. We don't need to worry about
serializing the release and deployment of migrations anymore, nor about making
sure that everybody runs migrations in the same order. We can delegate that
responsibility to moto.
Also, moto is an excellent interface to interacting with our migrations and
environment. The final product we obtain as a user of moto is a ready-made
command line interface program that we can deploy and use to run all or some
migrations, undo them, render the dependency graph, compare it with the current
registry of migrations that have been run so far, obtain an execution plan as
well as very detailed logs in human and computer readable formats, etc.
moto relies on a registry of migrations to understand what has been run so
far and what hasn't. We can decide whether to keep this state locally or in
a remote database.
Last, but not least, moto encourages us to remove old migrations after some
time, once these migrations are so old that maintaining them in the project is
an unnecessary burden to us. To this end, moto offers us enough vocabulary to
mark said migrations as gone.
This module is inteded to be imported qualified:
import qualified Moto
Synopsis
- run :: Df1 -> Migs graph -> Opts -> IO ()
- data Opts
- getOpts :: RegistryConf -> Parser a -> IO (Opts, a)
- data Mig (id :: Symbol) (deps :: [Symbol]) where
- data Store (x :: *) = Store {
- store_save :: Df1 -> MigId -> x -> IO ()
- store_load :: forall r. Df1 -> MigId -> (x -> IO r) -> IO r
- store_delete :: Df1 -> MigId -> IO ()
- mapStore :: (b -> a) -> (a -> b) -> Store a -> Store b
- data Backup (x :: *) = Backup (forall r. Df1 -> (x -> IO r) -> IO r)
- newtype Change x = Change (Df1 -> Direction -> Mode -> x -> IO ())
- data Direction
- direction :: a -> a -> Direction -> a
- data Mode
- newtype MigId = MigId {}
- data Migs (graph :: [(Symbol, [Symbol])])
- migs :: Migs '[]
- (*) :: DAG id deps graph => Migs graph -> Mig id deps -> Migs ('(id, deps) ': graph)
- type DAG id deps graph = DAG_ id deps graph
Example
The main interface to running migrations is the command line. As a user of
moto, we are expected to create an executable that calls cli. This
executable can then be deployed and used to run migrations.
Usually, the code in this executable will look like this:
{-# LANGUAGE DataKinds #-}
{-# LANGUAGE PartialTypeSignatures #-}
-- Our project will be an executable, so we name our module Main as it is
-- customary.
module Main (main) where
-- Moto is designed to be imported qualified, as well as Di, a module that
-- provides the logging support required by Moto.
import qualified Di
import qualified Moto
-- Moreover, in this example we will use a migrations registry from the
-- Moto.File module as an example.
import qualified Moto.File
-- Here are some migrations, each of them with a identifier and a set of
-- identifiers for other migrations expected to be executed before them when
-- going Forwards.
--
-- Optional: It is actually recommended to put each migration in its own module.
-- It is not necessary, but GHC takes a longer time and more resources to
-- compile big modules. And considering the list of migrations in our project
-- will always be growing, it's better to organize things that way from the
-- start, as this can quickly become a source of slow compilation times. For
-- example, instead of Main.mig_black and Main.mig_blue, we can have
-- MyProject.Migs.Black.mig and MyProject.Migs.Blue.mig that we import as
-- necessary.
mig_red :: Moto.Mig "red" '["blue"]
mig_red = Moto.Mig ... -- Please see the documentation for Mig.
mig_yellow :: Moto.Mig "yellow" '["black","red"]
mig_yellow = Moto.Mig ... -- Please see the documentation for Mig.
mig_green :: Moto.Mig "green" '["red"]
mig_green = Moto.Mig ... -- Please see the documentation for Mig.
mig_black :: Moto.Mig "black" '["blue"]
mig_black = Moto.Mig ... -- Please see the documentation for Mig.
mig_blue :: Moto.Mig "blue" '[]
mig_blue = Moto.Mig ... -- Please see the documentation for Mig.
-- All of the Migs that we might want to run need to be put in directed
-- acyclic graph where each migration is a node and each edge is a dependency
-- between migrations. In Moto, we use migs and the infix *
-- function to safely construct the graph of migrations. The way we define our
-- Migs is a bit strange. Let's understand why.
--
-- The Moto.* infix function says that the migrations that appear syntactically
-- to its right can only mention as their dependencies migrations that appear
-- to its syntactic left. This prevents us from mentioning our migrations in
-- any order, but on the other hand it ensures at construction that there are no
-- cycles nor dangling references in our dependency graph. If we get the order
-- wrong, we will get a type-checker error. Moreover, migration identifiers are
-- forced to be unique within this graph. The Moto.migs value itself is a dummy
-- starting point we use as the leftmost argument to our chain of Moto.* calls.
--
-- Observation: Note we avoid giving an explicit type to myMigs. Instead, we
-- used the PartialTypeSignatures GHC extension to put an underscore there and
-- allow GHC to use the inferred type. This is a desirable thing to do so as to
-- prevent type-inference from accidentally inferring an undesired identifier
-- for our migrations. This approach forces all of our Moto.Mig values to have
-- their identifiers and dependencies fully specified at their definition site.
-- We could have accomplished the same by not giving an type signature to our
-- top level myMigs, or by simply inlining our definition of myMigs at its use
-- site later on.
myMigs :: Moto.Migs _
myMigs = Moto.migs
Moto.* mig_blue
Moto.* mig_red
Moto.* mig_black
Moto.* mig_green
Moto.* mig_yellow
-- Finally, we have our main entry point. This program can be run from the
-- command line and allows us to run and inspect migrations.
main :: IO ()
main = do
-- Using getOpts we parse the command-line arguments and obtain the
-- instructions necessary to call run afterwards. We specify as
-- arguments a RegistryConf that describes the migrations
-- registry where we keep track of the migrations that have run so far, as
-- well as any extra command-line parsing needs we may have. In our case, we
-- use a file in the filesystem as our registry, and we don't do any extra
-- command-line argument parsing. Please see the documentation of
-- getOpts for more details.
(myOpts, ()) <- Moto.getOpts Moto.File.registryConf (pure ())
-- moto uses Di for its own logging, so we first
-- need to obtain a Di Level Path MessageDf1 synonym). We can do this using new.
Di.new $ \di -> do
-- Finally, we run moto as instructed by myOpts, passing in the
-- Df1 we just obtained, as well as the migrations graph
Moto.run di myMigs myOpts
Frequently Asked Questions
Here are some answers to questions you'll frequently ask yourselves when using
moto.
- Where should we maintain the migrations code for our project?
- Ideally, if you keep your whole project in a single code repository, you should keep the migrations in that same repository, so that they are always in sync with the code they cater for. You should create a standalone executable program for running your migrations.
- Should my migrations program depend on the code I am migrating?
- Definitely not. That code will change or disappear over time, and it will affect your migrations code whenever it changes. Your migrations code should stand alone and have a holistic view of the history of the many environments where your project runs, without depending on it.
- Can I use
mototo migrate projects not written in Haskell? - Yes,
motodoesn't care about the language your project is written in. However, the migrations code itself will have to be written Haskell. - How do I deploy this?
- The same way you deploy other executables. We recommend packaging the program as
a Nix derivation containing a statically linked executable. Moreover, you can
package the migrations execution as a NixOS module that runs automatically
whenever a new version is deployed. Future versions of
motowill provide a web interface for making migration execution a bit more interactive. - How do I make sure my migrations work before deploying them?
- Generally speaking, as much as possible, you should use domain-specific
type-safe DSLs to describe your changes. But still, eventually, try the real
thing locally. Don't try to “mock” scenarios, that doesn't help.
motomakes it quite easy to run migrations backwards afterwards. Moreover, in order to try recovery scenarios, you try and throw exceptions from the different parts of your migrations and see what happens. - I don't see anything about SQL nor versioned data-types here
- Whether you are modifying an SQL database or moving any other kind of
bits around,
motodoesn't care about those details. You can write all the SQL you want inside your migration, using the SQL-supporting library of your choice, or version your datatypes as well. - Is this ready for production?
- Migrations are a tricky business, and this is a very early release of
moto, so use at your own risk. - Is the API stable?
- No, and it will never be. We will always break the API as necessary if it allows
us offer better safety and experience. However, we understand the subtle nature
of the projects relying on
motoan we will take the necessary steps to ensure a positive and maintainable experience over time. Please see the changelog to understand differences between versions and learn about any necessary changes you'll need to make. In amotoversionx.y.z, we will always increase one ofxorywhenever a new version introduces backwards incompatible changes. - I have more questions!
- We have more answers. Just ask.
Running
Arguments
| :: RegistryConf | Configuration for the Among other things, this will dictate how we interpret the Examples: |
| -> Parser a | This extra parser can be used to read some extra configuration
values from the command-line arguments, besides For example, we can obtain things such as the name of a configuration file or a database connection string we might want to use in our migrations. If no such extra data is required, then Notice that |
| -> IO (Opts, a) |
Describing individual migrations
data Mig (id :: Symbol) (deps :: [Symbol]) where Source #
A single side-effecting migration uniquely identfied by id and depending
on all of the migrations listed in deps.
These migration identifiers that appear as type-level Symbol here, will be
of type MigId when represented at the type level.
Constructors
| Mig | Description of the different phashes that make up this migration
identified by |
Fields
| |
| Gone :: Mig id deps | This constructor conveys the idea that code for a particular migration is
gone, while still communicating the dependencies that this migration used
to have so that we don't change the past dependency graph over time, which
would make it impossible for |
A Store describes how to save, load and delete the x data obtained by
a Backup.
This x data is used later by the Change phase.
A single Store might be used by different Migs.
Hint: store from the Moto.File module is a Store you can use
that's distributed with the main moto library.
Constructors
| Store | |
Fields
| |
The backup phase of a migration, collecting some data x for backup in a
Store.
Here we interact with the environment in a read-only manner, collecting all
data that may be destroyed by a subsequent Change phase for backup in some
Store.
This data will be crucial for automatic recovery in case the Change phase
of the Mig that uses this Backup fails, or in case we manually decide to
undo said Mig at a later time. Thus, when deciding what data to return as
x, please consider those scenarios.
The actual storing of the backup data is performed by the Store that is
used as part of the same Mig. That is, we don't physically store
the data within this Backup, all we do is return it as x.
Please keep in mind that depending on your environment, x could be really
large, so in those situations it best for x to be some kind of stream
(e.g., a Producer).
Notice that x is returned in a continuation-passing style so that we can
do proper resource deallocation after x has been consumed. Using x
outside of this intended scope is undefined.
A Change describes how a Mig changes the environment.
The given function will be called when running the migration both in
Forwards or Backwards direction.
In both cases, we have access to the original Backup data while
running the migration, which implies that even “irrecoverable” migrations
that delete things when going Forwards can be undone by relying on data
from the Backup.
The given Mode specifies why and how this Change is being run.
Particularly, it describes the assumptions you can make about the
environment, which is very important if something goes wrong. Please refer to
the documentation for Mode for a better understanding.
The passed in Df1 can be used for logging if necessary (see Di and
Di.Df1), but please don't log exceptions nor messages telling whether this
function as a whole succeeds or fails, since this library already does that
for you. However, for debugging purposes in case something goes wrong, it is
very important that you log what your Change is doing, particularly if
the changes themselves are not atomic. Please see the documentation for
Recovery to understand what can be helpful.
After a successful Backwards execution of this Change, any recovery data
associated with the Mig previously obtained during the Backup phase can
be deleted from its Store, since it is not necessary anymore. This will
happen automatically if you request so when instructing moto to run your
migrations.
Direction in which a migration runs.
Running it Forwards conveys the idea of “advancing” or “improving” your
state over time somehow, while running it Backwards conveys the idea of
undoing all the changes that the migration does when going Forwards.
Instances
| Eq Direction Source # | |
| Ord Direction Source # | |
| Read Direction Source # | |
| Show Direction Source # | |
| ToValue Direction Source # | |
Defined in Moto.Internal | |
Execution mode of a migration, describing why and how a Change migration
is being run.
Constructors
| Normal | The migration is being run as requested by the user, in the requested
If running the migration in |
| Recovery | An attempt to run the migration in the Ultimately, running a migration in If running a migration in |
A term-level identifier for a Mig.
Describing migrations graph
type DAG id deps graph = DAG_ id deps graph Source #
This Constraint is automatically satisfied by an id that is absent from
graph, and deps listing identifiers present in the given graph.
In other words, DAG effectively forces * to always build Directed
Acyclic Graphs (hence the name).
DAGid deps graph ::Constraint
Command line help
This is the full description of the command line options supported by
getOpts, using Moto.File.fileRegistry as the registry.
Main program (here called moto-example):
Usage: moto-example COMMAND
Command line interface to migrations.
Available options:
-h,--help Show this help text
Available commands:
run Run migrations.
show-migrations Show available migrations.
check-migrations Exit immediately with status 0 if the available
migrations are compatible with the registry.
Otherwise, exit with status 1.
show-registry Show migrations registry.
clean-registry Clean a dirty migrations registry.
delete-recovery-data Delete contents from the migrations data store.
Subcommand run:
Usage: moto-example run --registry URI [--backwards] [--mig ID] [--no-dry-run]
Run migrations.
Available options:
--registry URI File where registry file is stored. E.g.,
file:///var/db/migrations
--mig ID If specified, only consider running the migration
identified by this ID. Use multiple times for
multiple migrations.
--no-dry-run Don't just show the execution plan, run it!
-h,--help Show this help text
Subcommand show-migrations:
Usage: moto-example show-migrations [--dot] Show available migrations. Available options: --dot Render graph in DOT (Graphviz) format. -h,--help Show this help text
Subcommand check-migrations:
Usage: moto-example check-migrations --registry URI
Exit immediately with status 0 if the available migrations are compatible with
the registry. Otherwise, exit with status 1.
Available options:
--registry URI File where registry file is stored. E.g.,
file:///var/db/migrations
-h,--help Show this help text
Subcommand show-registry:
Usage: moto-example show-registry --registry URI
Show migrations registry.
Available options:
--registry URI File where registry file is stored. E.g.,
file:///var/db/migrations
-h,--help Show this help text
Subcommand clean-registry:
Usage: moto-example clean-registry --registry URI [--dry-run]
Clean a dirty migrations registry.
Available options:
--registry URI File where registry file is stored. E.g.,
file:///var/db/migrations
--dry-run Don't clean registry, just show whether it is clean
and exit immediately with status 0 if so, otherwise
exit with status 1.
-h,--help Show this help text
Subcommand delete-recovery-data:
Usage: moto-example delete-recovery-data --mig ARG Delete contents from the migrations data store. Available options: -h,--help Show this help text