defmodule Ecto.Repo do @moduledoc """ Defines a repository. A repository maps to an underlying data store, controlled by the adapter. For example, Ecto ships with a Postgres adapter that stores data into a PostgreSQL database. When used, the repository expects the `:otp_app` and `:adapter` as option. The `:otp_app` should point to an OTP application that has the repository configuration. For example, the repository: defmodule Repo do use Ecto.Repo, otp_app: :my_app, adapter: Ecto.Adapters.Postgres end Could be configured with: config :my_app, Repo, database: "ecto_simple", username: "postgres", password: "postgres", hostname: "localhost" Most of the configuration that goes into the `config` is specific to the adapter. For this particular example, you can check [`Ecto.Adapters.Postgres`](https://hexdocs.pm/ecto_sql/Ecto.Adapters.Postgres.html) for more information. In spite of this, the following configuration values are shared across all adapters: * `:name`- The name of the Repo supervisor process * `:priv` - the directory where to keep repository data, like migrations, schema and more. Defaults to "priv/YOUR_REPO". It must always point to a subdirectory inside the priv directory * `:url` - an URL that specifies storage information. Read below for more information * `:log` - the log level used when logging the query with Elixir's Logger. If false, disables logging for that repository. Defaults to `:debug` * `:pool_size` - the size of the pool used by the connection module. Defaults to `10` * `:telemetry_prefix` - we recommend adapters to publish events using the `Telemetry` library. By default, the telemetry prefix is based on the module name, so if your module is called `MyApp.Repo`, the prefix will be `[:my_app, :repo]`. See the "Telemetry Events" section to see which events we recommend adapters to publish. Note that if you have multiple databases, you should keep the `:telemetry_prefix` consistent for each repo and use the `:repo` property in the event metadata for distinguishing between repos. ## URLs Repositories by default support URLs. For example, the configuration above could be rewritten to: config :my_app, Repo, url: "ecto://postgres:postgres@localhost/ecto_simple" The schema can be of any value. The path represents the database name while options are simply merged in. URL can include query parameters to override shared and adapter-specific options, like `ssl`, `timeout` and `pool_size`. The following example shows how to pass these configuration values: config :my_app, Repo, url: "ecto://postgres:postgres@localhost/ecto_simple?ssl=true&pool_size=10" In case the URL needs to be dynamically configured, for example by reading a system environment variable, such can be done via the `c:init/2` repository callback: def init(_type, config) do {:ok, Keyword.put(config, :url, System.get_env("DATABASE_URL"))} end ## Shared options Almost all of the repository functions outlined in this module accept the following options: * `:timeout` - The time in milliseconds (as an integer) to wait for the query call to finish. `:infinity` will wait indefinitely (default: `15_000`) * `:log` - When false, does not log the query * `:telemetry_event` - The telemetry event name to dispatch the event under. See the next section for more information * `:telemetry_options` - Extra options to attach to telemetry event name. See the next section for more information ## Telemetry events There are two types of telemetry events. The ones emitted by Ecto and the ones that are adapter specific. ### Ecto telemetry events The following events are emitted by all Ecto repositories: * `[:ecto, :repo, :init]` - it is invoked whenever a repository starts. The measurement is a single `system_time` entry in native unit. The metadata is the `:repo` and all initialization options under `:opts`. ### Adapter-specific events We recommend adapters to publish certain `Telemetry` events listed below. Those events will use the `:telemetry_prefix` outlined above which defaults to `[:my_app, :repo]`. For instance, to receive all query events published by a repository called `MyApp.Repo`, one would define a module: defmodule MyApp.Telemetry do def handle_event([:my_app, :repo, :query], measurements, metadata, config) do IO.inspect binding() end end Then, in the `Application.start/2` callback, attach the handler to this event using a unique handler id: :ok = :telemetry.attach("my-app-handler-id", [:my_app, :repo, :query], &MyApp.Telemetry.handle_event/4, %{}) For details, see [the telemetry documentation](https://hexdocs.pm/telemetry/). Below we list all events developers should expect from Ecto. All examples below consider a repository named `MyApp.Repo`: #### `[:my_app, :repo, :query]` This event should be invoked on every query sent to the adapter, including queries that are related to the transaction management. The `:measurements` map will include the following, all given in the `:native` time unit: * `:idle_time` - the time the connection spent waiting before being checked out for the query * `:queue_time` - the time spent waiting to check out a database connection * `:query_time` - the time spent executing the query * `:decode_time` - the time spent decoding the data received from the database * `:total_time` - the sum of the other measurements All measurements are given in the `:native` time unit. You can read more about it in the docs for `System.convert_time_unit/3`. A telemetry `:metadata` map including the following fields. Each database adapter may emit different information here. For Ecto.SQL databases, it will look like this: * `:type` - the type of the Ecto query. For example, for Ecto.SQL databases, it would be `:ecto_sql_query` * `:repo` - the Ecto repository * `:result` - the query result * `:params` - the query parameters * `:query` - the query sent to the database as a string * `:source` - the source the query was made on (may be nil) * `:options` - extra options given to the repo operation under `:telemetry_options` ## Read-only repositories You can mark a repository as read-only by passing the `:read_only` flag on `use`: use Ecto.Repo, otp_app: ..., adapter: ..., read_only: true By passing the `:read_only` option, none of the functions that perform write operations, such as `c:insert/2`, `c:insert_all/3`, `c:update_all/3`, and friends will be defined. """ @type t :: module @doc """ Returns all running Ecto repositories. The list is returned in no particular order. The list contains either atoms, for named Ecto repositories, or PIDs. """ @spec all_running() :: [atom() | pid()] defdelegate all_running(), to: Ecto.Repo.Registry @doc false defmacro __using__(opts) do quote bind_quoted: [opts: opts] do @behaviour Ecto.Repo {otp_app, adapter, behaviours} = Ecto.Repo.Supervisor.compile_config(__MODULE__, opts) @otp_app otp_app @adapter adapter @default_dynamic_repo opts[:default_dynamic_repo] || __MODULE__ @read_only opts[:read_only] || false @before_compile adapter @aggregates [:count, :avg, :max, :min, :sum] def config do {:ok, config} = Ecto.Repo.Supervisor.runtime_config(:runtime, __MODULE__, @otp_app, []) config end def __adapter__ do @adapter end def child_spec(opts) do %{ id: __MODULE__, start: {__MODULE__, :start_link, [opts]}, type: :supervisor } end def start_link(opts \\ []) do Ecto.Repo.Supervisor.start_link(__MODULE__, @otp_app, @adapter, opts) end def stop(timeout \\ 5000) do Supervisor.stop(get_dynamic_repo(), :normal, timeout) end def load(schema_or_types, data) do Ecto.Repo.Schema.load(@adapter, schema_or_types, data) end def checkout(fun, opts \\ []) when is_function(fun) do {adapter, meta} = Ecto.Repo.Registry.lookup(get_dynamic_repo()) adapter.checkout(meta, opts, fun) end def checked_out? do {adapter, meta} = Ecto.Repo.Registry.lookup(get_dynamic_repo()) adapter.checked_out?(meta) end @compile {:inline, get_dynamic_repo: 0, with_default_options: 2} def get_dynamic_repo() do Process.get({__MODULE__, :dynamic_repo}, @default_dynamic_repo) end def put_dynamic_repo(dynamic) when is_atom(dynamic) or is_pid(dynamic) do Process.put({__MODULE__, :dynamic_repo}, dynamic) || @default_dynamic_repo end def default_options(_operation), do: [] defoverridable default_options: 1 defp with_default_options(operation_name, opts) do Keyword.merge(default_options(operation_name), opts) end ## Transactions if Ecto.Adapter.Transaction in behaviours do def transaction(fun_or_multi, opts \\ []) do Ecto.Repo.Transaction.transaction(__MODULE__, get_dynamic_repo(), fun_or_multi, with_default_options(:transaction, opts)) end def in_transaction? do Ecto.Repo.Transaction.in_transaction?(get_dynamic_repo()) end @spec rollback(term) :: no_return def rollback(value) do Ecto.Repo.Transaction.rollback(get_dynamic_repo(), value) end end ## Schemas if Ecto.Adapter.Schema in behaviours and not @read_only do def insert(struct, opts \\ []) do Ecto.Repo.Schema.insert(__MODULE__, get_dynamic_repo(), struct, with_default_options(:insert, opts)) end def update(struct, opts \\ []) do Ecto.Repo.Schema.update(__MODULE__, get_dynamic_repo(), struct, with_default_options(:update, opts)) end def insert_or_update(changeset, opts \\ []) do Ecto.Repo.Schema.insert_or_update(__MODULE__, get_dynamic_repo(), changeset, with_default_options(:insert_or_update, opts)) end def delete(struct, opts \\ []) do Ecto.Repo.Schema.delete(__MODULE__, get_dynamic_repo(), struct, with_default_options(:delete, opts)) end def insert!(struct, opts \\ []) do Ecto.Repo.Schema.insert!(__MODULE__, get_dynamic_repo(), struct, with_default_options(:insert, opts)) end def update!(struct, opts \\ []) do Ecto.Repo.Schema.update!(__MODULE__, get_dynamic_repo(), struct, with_default_options(:update, opts)) end def insert_or_update!(changeset, opts \\ []) do Ecto.Repo.Schema.insert_or_update!(__MODULE__, get_dynamic_repo(), changeset, with_default_options(:insert_or_update, opts)) end def delete!(struct, opts \\ []) do Ecto.Repo.Schema.delete!(__MODULE__, get_dynamic_repo(), struct, with_default_options(:delete, opts)) end def insert_all(schema_or_source, entries, opts \\ []) do Ecto.Repo.Schema.insert_all(__MODULE__, get_dynamic_repo(), schema_or_source, entries, with_default_options(:insert_all, opts)) end end ## Queryable if Ecto.Adapter.Queryable in behaviours do if not @read_only do def update_all(queryable, updates, opts \\ []) do Ecto.Repo.Queryable.update_all(get_dynamic_repo(), queryable, updates, with_default_options(:update_all, opts)) end def delete_all(queryable, opts \\ []) do Ecto.Repo.Queryable.delete_all(get_dynamic_repo(), queryable, with_default_options(:delete_all, opts)) end end def all(queryable, opts \\ []) do Ecto.Repo.Queryable.all(get_dynamic_repo(), queryable, with_default_options(:all, opts)) end def stream(queryable, opts \\ []) do Ecto.Repo.Queryable.stream(get_dynamic_repo(), queryable, with_default_options(:stream, opts)) end def get(queryable, id, opts \\ []) do Ecto.Repo.Queryable.get(get_dynamic_repo(), queryable, id, with_default_options(:all, opts)) end def get!(queryable, id, opts \\ []) do Ecto.Repo.Queryable.get!(get_dynamic_repo(), queryable, id, with_default_options(:all, opts)) end def get_by(queryable, clauses, opts \\ []) do Ecto.Repo.Queryable.get_by(get_dynamic_repo(), queryable, clauses, with_default_options(:all, opts)) end def get_by!(queryable, clauses, opts \\ []) do Ecto.Repo.Queryable.get_by!(get_dynamic_repo(), queryable, clauses, with_default_options(:all, opts)) end def reload(queryable, opts \\ []) do Ecto.Repo.Queryable.reload(get_dynamic_repo(), queryable, opts) end def reload!(queryable, opts \\ []) do Ecto.Repo.Queryable.reload!(get_dynamic_repo(), queryable, opts) end def one(queryable, opts \\ []) do Ecto.Repo.Queryable.one(get_dynamic_repo(), queryable, with_default_options(:all, opts)) end def one!(queryable, opts \\ []) do Ecto.Repo.Queryable.one!(get_dynamic_repo(), queryable, with_default_options(:all, opts)) end def aggregate(queryable, aggregate, opts \\ []) def aggregate(queryable, aggregate, opts) when aggregate in [:count] and is_list(opts) do Ecto.Repo.Queryable.aggregate(get_dynamic_repo(), queryable, aggregate, with_default_options(:all, opts)) end def aggregate(queryable, aggregate, field) when aggregate in @aggregates and is_atom(field) do Ecto.Repo.Queryable.aggregate(get_dynamic_repo(), queryable, aggregate, field, with_default_options(:all, [])) end def aggregate(queryable, aggregate, field, opts) when aggregate in @aggregates and is_atom(field) and is_list(opts) do Ecto.Repo.Queryable.aggregate(get_dynamic_repo(), queryable, aggregate, field, with_default_options(:all, opts)) end def exists?(queryable, opts \\ []) do Ecto.Repo.Queryable.exists?(get_dynamic_repo(), queryable, with_default_options(:all, opts)) end def preload(struct_or_structs_or_nil, preloads, opts \\ []) do Ecto.Repo.Preloader.preload(struct_or_structs_or_nil, get_dynamic_repo(), preloads, with_default_options(:preload, opts)) end def prepare_query(operation, query, opts), do: {query, opts} defoverridable prepare_query: 3 end end end ## User callbacks @optional_callbacks init: 2 @doc """ A callback executed when the repo starts or when configuration is read. The first argument is the context the callback is being invoked. If it is called because the Repo supervisor is starting, it will be `:supervisor`. It will be `:runtime` if it is called for reading configuration without actually starting a process. The second argument is the repository configuration as stored in the application environment. It must return `{:ok, keyword}` with the updated list of configuration or `:ignore` (only in the `:supervisor` case). """ @callback init(context :: :supervisor | :runtime, config :: Keyword.t()) :: {:ok, Keyword.t()} | :ignore ## Ecto.Adapter @doc """ Returns the adapter tied to the repository. """ @callback __adapter__ :: Ecto.Adapter.t() @doc """ Returns the adapter configuration stored in the `:otp_app` environment. If the `c:init/2` callback is implemented in the repository, it will be invoked with the first argument set to `:runtime`. """ @callback config() :: Keyword.t() @doc """ Starts any connection pooling or supervision and return `{:ok, pid}` or just `:ok` if nothing needs to be done. Returns `{:error, {:already_started, pid}}` if the repo is already started or `{:error, term}` in case anything else goes wrong. ## Options See the configuration in the moduledoc for options shared between adapters, for adapter-specific configuration see the adapter's documentation. """ @callback start_link(opts :: Keyword.t()) :: {:ok, pid} | {:error, {:already_started, pid}} | {:error, term} @doc """ Shuts down the repository. """ @callback stop(timeout) :: :ok @doc """ Checks out a connection for the duration of the function. It returns the result of the function. This is useful when you need to perform multiple operations against the repository in a row and you want to avoid checking out the connection multiple times. `checkout/2` and `transaction/2` can be combined and nested multiple times. If `checkout/2` is called inside the function of another `checkout/2` call, the function is simply executed, without checking out a new connection. ## Options See the ["Shared options"](#module-shared-options) section at the module documentation for more options. """ @callback checkout((() -> result), opts :: Keyword.t()) :: result when result: var @doc """ Returns true if a connection has been checked out. This is true if inside a `c:Ecto.Repo.checkout/2` or `c:Ecto.Repo.transaction/2`. ## Examples MyRepo.checked_out? #=> false MyRepo.transaction(fn -> MyRepo.checked_out? #=> true end) MyRepo.checkout(fn -> MyRepo.checked_out? #=> true end) """ @callback checked_out?() :: boolean @doc """ Loads `data` into a struct or a map. The first argument can be a a schema module, or a map (of types) and determines the return value: a struct or a map, respectively. The second argument `data` specifies fields and values that are to be loaded. It can be a map, a keyword list, or a `{fields, values}` tuple. Fields can be atoms or strings. Fields that are not present in the schema (or `types` map) are ignored. If any of the values has invalid type, an error is raised. To load data from non-database sources, use `Ecto.embedded_load/3`. ## Examples iex> MyRepo.load(User, %{name: "Alice", age: 25}) %User{name: "Alice", age: 25} iex> MyRepo.load(User, [name: "Alice", age: 25]) %User{name: "Alice", age: 25} `data` can also take form of `{fields, values}`: iex> MyRepo.load(User, {[:name, :age], ["Alice", 25]}) %User{name: "Alice", age: 25, ...} The first argument can also be a `types` map: iex> types = %{name: :string, age: :integer} iex> MyRepo.load(types, %{name: "Alice", age: 25}) %{name: "Alice", age: 25} This function is especially useful when parsing raw query results: iex> result = Ecto.Adapters.SQL.query!(MyRepo, "SELECT * FROM users", []) iex> Enum.map(result.rows, &MyRepo.load(User, {result.columns, &1})) [%User{...}, ...] """ @callback load( module_or_map :: module | map(), data :: map() | Keyword.t() | {list, list} ) :: Ecto.Schema.t() | map() @doc """ Returns the atom name or pid of the current repository. See `c:put_dynamic_repo/1` for more information. """ @callback get_dynamic_repo() :: atom() | pid() @doc """ Sets the dynamic repository to be used in further interactions. Sometimes you may want a single Ecto repository to talk to many different database instances. By default, when you call `MyApp.Repo.start_link/1`, it will start a repository with name `MyApp.Repo`. But if you want to start multiple repositories, you can give each of them a different name: MyApp.Repo.start_link(name: :tenant_foo, hostname: "foo.example.com") MyApp.Repo.start_link(name: :tenant_bar, hostname: "bar.example.com") You can also start repositories without names by explicitly setting the name to nil: MyApp.Repo.start_link(name: nil, hostname: "temp.example.com") However, once the repository is started, you can't directly interact with it, since all operations in `MyApp.Repo` are sent by default to the repository named `MyApp.Repo`. You can change the default repo at compile time with: use Ecto.Repo, default_dynamic_repo: :name_of_repo Or you can change it anytime at runtime by calling `put_dynamic_repo/1`: MyApp.Repo.put_dynamic_repo(:tenant_foo) From this moment on, all future queries done by the current process will run on `:tenant_foo`. **Note this feature is experimental and may be changed or removed in future releases.** """ @callback put_dynamic_repo(name_or_pid :: atom() | pid()) :: atom() | pid() ## Ecto.Adapter.Queryable @optional_callbacks get: 3, get!: 3, get_by: 3, get_by!: 3, reload: 2, reload!: 2, aggregate: 3, aggregate: 4, exists?: 2, one: 2, one!: 2, preload: 3, all: 2, stream: 2, update_all: 3, delete_all: 2 @doc """ Fetches a single struct from the data store where the primary key matches the given id. Returns `nil` if no result was found. If the struct in the queryable has no or more than one primary key, it will raise an argument error. ## Options * `:prefix` - The prefix to run the query on (such as the schema path in Postgres or the database in MySQL). This will be applied to all `from` and `join`s in the query that did not have a prefix previously given either via the `:prefix` option on `join`/`from` or via `@schema_prefix` in the schema. For more information see the "Query Prefix" section of the `Ecto.Query` documentation. See the ["Shared options"](#module-shared-options) section at the module documentation for more options. ## Example MyRepo.get(Post, 42) MyRepo.get(Post, 42, prefix: "public") """ @callback get(queryable :: Ecto.Queryable.t(), id :: term, opts :: Keyword.t()) :: Ecto.Schema.t() | nil @doc """ Similar to `c:get/3` but raises `Ecto.NoResultsError` if no record was found. ## Options * `:prefix` - The prefix to run the query on (such as the schema path in Postgres or the database in MySQL). This will be applied to all `from` and `join`s in the query that did not have a prefix previously given either via the `:prefix` option on `join`/`from` or via `@schema_prefix` in the schema. For more information see the "Query Prefix" section of the `Ecto.Query` documentation. See the ["Shared options"](#module-shared-options) section at the module documentation for more options. ## Example MyRepo.get!(Post, 42) MyRepo.get!(Post, 42, prefix: "public") """ @callback get!(queryable :: Ecto.Queryable.t(), id :: term, opts :: Keyword.t()) :: Ecto.Schema.t() @doc """ Fetches a single result from the query. Returns `nil` if no result was found. Raises if more than one entry. ## Options * `:prefix` - The prefix to run the query on (such as the schema path in Postgres or the database in MySQL). This will be applied to all `from` and `join`s in the query that did not have a prefix previously given either via the `:prefix` option on `join`/`from` or via `@schema_prefix` in the schema. For more information see the "Query Prefix" section of the `Ecto.Query` documentation. See the ["Shared options"](#module-shared-options) section at the module documentation for more options. ## Example MyRepo.get_by(Post, title: "My post") MyRepo.get_by(Post, [title: "My post"], prefix: "public") """ @callback get_by( queryable :: Ecto.Queryable.t(), clauses :: Keyword.t() | map, opts :: Keyword.t() ) :: Ecto.Schema.t() | nil @doc """ Similar to `c:get_by/3` but raises `Ecto.NoResultsError` if no record was found. Raises if more than one entry. ## Options * `:prefix` - The prefix to run the query on (such as the schema path in Postgres or the database in MySQL). This will be applied to all `from` and `join`s in the query that did not have a prefix previously given either via the `:prefix` option on `join`/`from` or via `@schema_prefix` in the schema. For more information see the "Query Prefix" section of the `Ecto.Query` documentation. See the ["Shared options"](#module-shared-options) section at the module documentation for more options. ## Example MyRepo.get_by!(Post, title: "My post") MyRepo.get_by!(Post, [title: "My post"], prefix: "public") """ @callback get_by!( queryable :: Ecto.Queryable.t(), clauses :: Keyword.t() | map, opts :: Keyword.t() ) :: Ecto.Schema.t() @doc """ Reloads a given schema or schema list from the database. When using with lists, it is expected that all of the structs in the list belong to the same schema. Ordering is guaranteed to be kept. Results not found in the database will be returned as `nil`. ## Example MyRepo.reload(post) %Post{} MyRepo.reload([post1, post2]) [%Post{}, %Post{}] MyRepo.reload([deleted_post, post1]) [nil, %Post{}] """ @callback reload( struct_or_structs :: Ecto.Schema.t() | [Ecto.Schema.t()], opts :: Keyword.t() ) :: Ecto.Schema.t() | [Ecto.Schema.t() | nil] | nil @doc """ Similar to `c:reload/2`, but raises when something is not found. When using with lists, ordering is guaranteed to be kept. ## Example MyRepo.reload!(post) %Post{} MyRepo.reload!([post1, post2]) [%Post{}, %Post{}] """ @callback reload!(struct_or_structs, opts :: Keyword.t()) :: struct_or_structs when struct_or_structs: Ecto.Schema.t() | [Ecto.Schema.t()] @doc """ Calculate the given `aggregate`. If the query has a limit, offset, distinct or combination set, it will be automatically wrapped in a subquery in order to return the proper result. Any preload or select in the query will be ignored in favor of the column being aggregated. The aggregation will fail if any `group_by` field is set. ## Options * `:prefix` - The prefix to run the query on (such as the schema path in Postgres or the database in MySQL). This will be applied to all `from` and `join`s in the query that did not have a prefix previously given either via the `:prefix` option on `join`/`from` or via `@schema_prefix` in the schema. For more information see the "Query Prefix" section of the `Ecto.Query` documentation. See the ["Shared options"](#module-shared-options) section at the module documentation for more options. ## Examples # Returns the number of blog posts Repo.aggregate(Post, :count) # Returns the number of blog posts in the "private" schema path # (in Postgres) or database (in MySQL) Repo.aggregate(Post, :count, prefix: "private") """ @callback aggregate( queryable :: Ecto.Queryable.t(), aggregate :: :count, opts :: Keyword.t() ) :: term | nil @doc """ Calculate the given `aggregate` over the given `field`. See `c:aggregate/3` for general considerations and options. ## Examples # Returns the number of visits per blog post Repo.aggregate(Post, :count, :visits) # Returns the number of visits per blog post in the "private" schema path # (in Postgres) or database (in MySQL) Repo.aggregate(Post, :count, :visits, prefix: "private") # Returns the average number of visits for the top 10 query = from Post, limit: 10 Repo.aggregate(query, :avg, :visits) """ @callback aggregate( queryable :: Ecto.Queryable.t(), aggregate :: :avg | :count | :max | :min | :sum, field :: atom, opts :: Keyword.t() ) :: term | nil @doc """ Checks if there exists an entry that matches the given query. Returns a boolean. ## Options * `:prefix` - The prefix to run the query on (such as the schema path in Postgres or the database in MySQL). This will be applied to all `from` and `join`s in the query that did not have a prefix previously given either via the `:prefix` option on `join`/`from` or via `@schema_prefix` in the schema. For more information see the "Query Prefix" section of the `Ecto.Query` documentation. See the ["Shared options"](#module-shared-options) section at the module documentation for more options. ## Examples # checks if any posts exist Repo.exists?(Post) # checks if any posts exist in the "private" schema path (in Postgres) or # database (in MySQL) Repo.exists?(Post, schema: "private") # checks if any post with a like count greater than 10 exists query = from p in Post, where: p.like_count > 10 Repo.exists?(query) """ @callback exists?(queryable :: Ecto.Queryable.t(), opts :: Keyword.t()) :: boolean() @doc """ Fetches a single result from the query. Returns `nil` if no result was found. Raises if more than one entry. ## Options * `:prefix` - The prefix to run the query on (such as the schema path in Postgres or the database in MySQL). This will be applied to all `from` and `join`s in the query that did not have a prefix previously given either via the `:prefix` option on `join`/`from` or via `@schema_prefix` in the schema. For more information see the "Query Prefix" section of the `Ecto.Query` documentation. See the ["Shared options"](#module-shared-options) section at the module documentation for more options. ## Examples Repo.one(from p in Post, join: c in assoc(p, :comments), where: p.id == ^post_id) query = from p in Post, join: c in assoc(p, :comments), where: p.id == ^post_id Repo.one(query, prefix: "private") """ @callback one(queryable :: Ecto.Queryable.t(), opts :: Keyword.t()) :: Ecto.Schema.t() | nil @doc """ Similar to `c:one/2` but raises `Ecto.NoResultsError` if no record was found. Raises if more than one entry. ## Options * `:prefix` - The prefix to run the query on (such as the schema path in Postgres or the database in MySQL). This will be applied to all `from` and `join`s in the query that did not have a prefix previously given either via the `:prefix` option on `join`/`from` or via `@schema_prefix` in the schema. For more information see the "Query Prefix" section of the `Ecto.Query` documentation. See the ["Shared options"](#module-shared-options) section at the module documentation for more options. """ @callback one!(queryable :: Ecto.Queryable.t(), opts :: Keyword.t()) :: Ecto.Schema.t() @doc """ Preloads all associations on the given struct or structs. This is similar to `Ecto.Query.preload/3` except it allows you to preload structs after they have been fetched from the database. In case the association was already loaded, preload won't attempt to reload it. ## Options * `:force` - By default, Ecto won't preload associations that are already loaded. By setting this option to true, any existing association will be discarded and reloaded. * `:in_parallel` - If the preloads must be done in parallel. It can only be performed when we have more than one preload and the repository is not in a transaction. Defaults to `true`. * `:prefix` - the prefix to fetch preloads from. By default, queries will use the same prefix as the one in the given collection. This option allows the prefix to be changed. See the ["Shared options"](#module-shared-options) section at the module documentation for more options. ## Examples # Use a single atom to preload an association posts = Repo.preload posts, :comments # Use a list of atoms to preload multiple associations posts = Repo.preload posts, [:comments, :authors] # Use a keyword list to preload nested associations as well posts = Repo.preload posts, [comments: [:replies, :likes], authors: []] # Use a keyword list to customize how associations are queried posts = Repo.preload posts, [comments: from(c in Comment, order_by: c.published_at)] # Use a two-element tuple for a custom query and nested association definition query = from c in Comment, order_by: c.published_at posts = Repo.preload posts, [comments: {query, [:replies, :likes]}] The query given to preload may also preload its own associations. """ @callback preload(structs_or_struct_or_nil, preloads :: term, opts :: Keyword.t()) :: structs_or_struct_or_nil when structs_or_struct_or_nil: [Ecto.Schema.t()] | Ecto.Schema.t() | nil @doc """ A user customizable callback invoked for query-based operations. This callback can be used to further modify the query and options before it is transformed and sent to the database. This callback is invoked for all query APIs, including the `stream` functions. It is also invoked for `insert_all` if a source query is given. It is not invoked for any of the other schema functions. ## Examples Let's say you want to filter out records that were "soft-deleted" (have `deleted_at` column set) from all operations unless an admin is running the query; you can define the callback like this: @impl true def prepare_query(_operation, query, opts) do if opts[:admin] do {query, opts} else query = from(x in query, where: is_nil(x.deleted_at)) {query, opts} end end And then execute the query: Repo.all(query) # only non-deleted records are returned Repo.all(query, admin: true) # all records are returned The callback will be invoked for all queries, including queries made from associations and preloads. It is not invoked for each individual join inside a query. """ @callback prepare_query(operation, query :: Ecto.Query.t(), opts :: Keyword.t()) :: {Ecto.Query.t(), Keyword.t()} when operation: :all | :update_all | :delete_all | :stream | :insert_all @doc """ A user customizable callback invoked to retrieve default options for operations. This can be used to provide default values per operation that have higher precedence than the values given on configuration or when starting the repository. It can also be used to set query specific options, such as `:prefix`. This callback is invoked as the entry point for all repository operations. For example, if you are executing a query with preloads, this callback will be invoked once at the beginning, but the options returned here will be passed to all following operations. """ @callback default_options(operation) :: Keyword.t() when operation: :all | :insert_all | :update_all | :delete_all | :stream | :transaction | :insert | :update | :delete | :insert_or_update @doc """ Fetches all entries from the data store matching the given query. May raise `Ecto.QueryError` if query validation fails. ## Options * `:prefix` - The prefix to run the query on (such as the schema path in Postgres or the database in MySQL). This will be applied to all `from` and `join`s in the query that did not have a prefix previously given either via the `:prefix` option on `join`/`from` or via `@schema_prefix` in the schema. For more information see the "Query Prefix" section of the `Ecto.Query` documentation. See the ["Shared options"](#module-shared-options) section at the module documentation for more options. ## Example # Fetch all post titles query = from p in Post, select: p.title MyRepo.all(query) """ @callback all(queryable :: Ecto.Queryable.t(), opts :: Keyword.t()) :: [Ecto.Schema.t()] @doc """ Returns a lazy enumerable that emits all entries from the data store matching the given query. SQL adapters, such as Postgres and MySQL, can only enumerate a stream inside a transaction. May raise `Ecto.QueryError` if query validation fails. ## Options * `:prefix` - The prefix to run the query on (such as the schema path in Postgres or the database in MySQL). This will be applied to all `from` and `join`s in the query that did not have a prefix previously given either via the `:prefix` option on `join`/`from` or via `@schema_prefix` in the schema. For more information see the "Query Prefix" section of the `Ecto.Query` documentation. * `:max_rows` - The number of rows to load from the database as we stream. It is supported at least by Postgres and MySQL and defaults to 500. See the ["Shared options"](#module-shared-options) section at the module documentation for more options. ## Example # Fetch all post titles query = from p in Post, select: p.title stream = MyRepo.stream(query) MyRepo.transaction(fn() -> Enum.to_list(stream) end) """ @callback stream(queryable :: Ecto.Queryable.t(), opts :: Keyword.t()) :: Enum.t() @doc """ Updates all entries matching the given query with the given values. It returns a tuple containing the number of entries and any returned result as second element. The second element is `nil` by default unless a `select` is supplied in the update query. Note, however, not all databases support returning data from UPDATEs. Keep in mind this `update_all` will not update autogenerated fields like the `updated_at` columns. See `Ecto.Query.update/3` for update operations that can be performed on fields. ## Options * `:prefix` - The prefix to run the query on (such as the schema path in Postgres or the database in MySQL). This overrides the prefix set in the query and any `@schema_prefix` set in the schema. See the ["Shared options"](#module-shared-options) section at the module documentation for remaining options. ## Examples MyRepo.update_all(Post, set: [title: "New title"]) MyRepo.update_all(Post, inc: [visits: 1]) from(p in Post, where: p.id < 10, select: p.visits) |> MyRepo.update_all(set: [title: "New title"]) from(p in Post, where: p.id < 10, update: [set: [title: "New title"]]) |> MyRepo.update_all([]) from(p in Post, where: p.id < 10, update: [set: [title: ^new_title]]) |> MyRepo.update_all([]) from(p in Post, where: p.id < 10, update: [set: [title: fragment("upper(?)", ^new_title)]]) |> MyRepo.update_all([]) """ @callback update_all( queryable :: Ecto.Queryable.t(), updates :: Keyword.t(), opts :: Keyword.t() ) :: {integer, nil | [term]} @doc """ Deletes all entries matching the given query. It returns a tuple containing the number of entries and any returned result as second element. The second element is `nil` by default unless a `select` is supplied in the delete query. Note, however, not all databases support returning data from DELETEs. ## Options * `:prefix` - The prefix to run the query on (such as the schema path in Postgres or the database in MySQL). This overrides the prefix set in the query and any `@schema_prefix` set in the schema. See the ["Shared options"](#module-shared-options) section at the module documentation for remaining options. ## Examples MyRepo.delete_all(Post) from(p in Post, where: p.id < 10) |> MyRepo.delete_all """ @callback delete_all(queryable :: Ecto.Queryable.t(), opts :: Keyword.t()) :: {integer, nil | [term]} ## Ecto.Adapter.Schema @optional_callbacks insert_all: 3, insert: 2, insert!: 2, update: 2, update!: 2, delete: 2, delete!: 2, insert_or_update: 2, insert_or_update!: 2, prepare_query: 3 @doc """ Inserts all entries into the repository. It expects a schema module (`MyApp.User`) or a source (`"users"`) or both (`{"users", MyApp.User}`) as the first argument. The second argument is a list of entries to be inserted, either as keyword lists or as maps. The keys of the entries are the field names as atoms and the value should be the respective value for the field type or, optionally, an `Ecto.Query` that returns a single entry with a single value. It returns a tuple containing the number of entries and any returned result as second element. If the database does not support RETURNING in INSERT statements or no return result was selected, the second element will be `nil`. When a schema module is given, the entries given will be properly dumped before being sent to the database. If the schema primary key has type `:id` or `:binary_id`, it will be handled either at the adapter or the storage layer. However any other primary key type or autogenerated value, like `Ecto.UUID` and timestamps, won't be autogenerated when using `c:insert_all/3`. You must set those fields explicitly. This is by design as this function aims to be a more direct way to insert data into the database without the conveniences of `c:insert/2`. This is also consistent with `c:update_all/3` that does not handle auto generated values as well. It is also not possible to use `insert_all` to insert across multiple tables, therefore associations are not supported. If a source is given, without a schema module, the given fields are passed as is to the adapter. ## Options * `:returning` - selects which fields to return. When `true`, returns all fields in the given schema. May be a list of fields, where a struct is still returned but only with the given fields. Or `false`, where nothing is returned (the default). This option is not supported by all databases. * `:prefix` - The prefix to run the query on (such as the schema path in Postgres or the database in MySQL). This overrides the prefix set in the query and any `@schema_prefix` set in the schema. * `:on_conflict` - It may be one of `:raise` (the default), `:nothing`, `:replace_all`, `{:replace_all_except, fields}`, `{:replace, fields}`, a keyword list of update instructions or an `Ecto.Query` query for updates. See the "Upserts" section for more information. * `:conflict_target` - A list of column names to verify for conflicts. It is expected those columns to have unique indexes on them that may conflict. If none is specified, the conflict target is left up to the database. It may also be `{:unsafe_fragment, binary_fragment}` to pass any expression to the database without any sanitization, this is useful for partial index or index with expressions, such as `ON CONFLICT (coalesce(firstname, ""), coalesce(lastname, ""))`. * `:placeholders` - A map with placeholders. This feature is not supported by all databases. See the "Placeholders" section for more information. See the ["Shared options"](#module-shared-options) section at the module documentation for remaining options. ## Source query A query can be given instead of a list with entries. This query needs to select into a map containing only keys that are available as writeable columns in the schema. ## Examples MyRepo.insert_all(Post, [[title: "My first post"], [title: "My second post"]]) MyRepo.insert_all(Post, [%{title: "My first post"}, %{title: "My second post"}]) query = from p in Post, join: c in assoc(p, :comments), select: %{ author_id: p.author_id, posts: count(p.id, :distinct), interactions: sum(p.likes) + count(c.id) }, group_by: p.author_id MyRepo.insert_all(AuthorStats, query) ## Upserts `c:insert_all/3` provides upserts (update or inserts) via the `:on_conflict` option. The `:on_conflict` option supports the following values: * `:raise` - raises if there is a conflicting primary key or unique index * `:nothing` - ignores the error in case of conflicts * `:replace_all` - replace **all** values on the existing row with the values in the schema/changeset, including fields not explicitly set in the changeset, such as IDs and autogenerated timestamps (`inserted_at` and `updated_at`). Do not use this option if you have auto-incrementing primary keys, as they will also be replaced. You most likely want to use `{:replace_all_except, [:id]}` or `{:replace, fields}` explicitly instead. This option requires a schema * `{:replace_all_except, fields}` - same as above except the given fields are not replaced. This option requires a schema * `{:replace, fields}` - replace only specific columns. This option requires `:conflict_target` * a keyword list of update instructions - such as the one given to `c:update_all/3`, for example: `[set: [title: "new title"]]` * an `Ecto.Query` that will act as an `UPDATE` statement, such as the one given to `c:update_all/3` Upserts map to "ON CONFLICT" on databases like Postgres and "ON DUPLICATE KEY" on databases such as MySQL. ## Return values By default, both Postgres and MySQL will return the number of entries inserted on `c:insert_all/3`. However, when the `:on_conflict` option is specified, Postgres and MySQL will return different results. Postgres will only count a row if it was affected and will return 0 if no new entry was added. MySQL will return, at a minimum, the number of entries attempted. For example, if `:on_conflict` is set to `:nothing`, MySQL will return the number of entries attempted to be inserted, even when no entry was added. Also note that if `:on_conflict` is a query, MySQL will return the number of attempted entries plus the number of entries modified by the UPDATE query. ## Placeholders Passing in a map for the `:placeholders` allows you to send less data over the wire when you have many entries with the same value for a field. To use a placeholder, replace its value in each of your entries with `{:placeholder, key}`, where `key` is the key you are using in the `:placeholders` option map. For example: placeholders = %{blob: large_blob_of_text(...)} entries = [ %{title: "v1", body: {:placeholder, :blob}}, %{title: "v2", body: {:placeholder, :blob}} ] Repo.insert_all(Post, entries, placeholders: placeholders) Keep in mind that: * placeholders cannot be nested in other values. For example, you cannot put a placeholder inside an array. Instead, the whole array has to be the placeholder * a placeholder key can only be used with columns of the same type * placeholders require a database that supports index parameters, so they are not currently compatible with MySQL """ @callback insert_all( schema_or_source :: binary | {binary, module} | module, entries_or_query :: [map | [{atom, term | Ecto.Query.t}]] | Ecto.Query.t, opts :: Keyword.t() ) :: {integer, nil | [term]} @doc """ Inserts a struct defined via `Ecto.Schema` or a changeset. In case a struct is given, the struct is converted into a changeset with all non-nil fields as part of the changeset. In case a changeset is given, the changes in the changeset are merged with the struct fields, and all of them are sent to the database. It returns `{:ok, struct}` if the struct has been successfully inserted or `{:error, changeset}` if there was a validation or a known constraint error. ## Options * `:returning` - selects which fields to return. It accepts a list of fields to be returned from the database. When `true`, returns all fields. When `false`, no extra fields are returned. It will always include all fields in `read_after_writes` as well as any autogenerated id. Not all databases support this option and it may not be available during upserts. See the "Upserts" section for more information. * `:prefix` - The prefix to run the query on (such as the schema path in Postgres or the database in MySQL). This overrides the prefix set in the query and any `@schema_prefix` set any schemas. Also, the `@schema_prefix` for the parent record will override all default `@schema_prefix`s set in any child schemas for associations. * `:on_conflict` - It may be one of `:raise` (the default), `:nothing`, `:replace_all`, `{:replace_all_except, fields}`, `{:replace, fields}`, a keyword list of update instructions or an `Ecto.Query` query for updates. See the "Upserts" section for more information. * `:conflict_target` - A list of column names to verify for conflicts. It is expected those columns to have unique indexes on them that may conflict. If none is specified, the conflict target is left up to the database. It may also be `{:unsafe_fragment, binary_fragment}` to pass any expression to the database without any sanitization, this is useful for partial index or index with expressions, such as `ON CONFLICT (coalesce(firstname, ""), coalesce(lastname, ""))`. * `:stale_error_field` - The field where stale errors will be added in the returning changeset. This option can be used to avoid raising `Ecto.StaleEntryError`. * `:stale_error_message` - The message to add to the configured `:stale_error_field` when stale errors happen, defaults to "is stale". See the ["Shared options"](#module-shared-options) section at the module documentation for more options. ## Examples A typical example is calling `MyRepo.insert/1` with a struct and acting on the return value: case MyRepo.insert %Post{title: "Ecto is great"} do {:ok, struct} -> # Inserted with success {:error, changeset} -> # Something went wrong end ## Upserts `c:insert/2` provides upserts (update or inserts) via the `:on_conflict` option. The `:on_conflict` option supports the following values: * `:raise` - raises if there is a conflicting primary key or unique index * `:nothing` - ignores the error in case of conflicts * `:replace_all` - replace **all** values on the existing row with the values in the schema/changeset, including fields not explicitly set in the changeset, such as IDs and autogenerated timestamps (`inserted_at` and `updated_at`). Do not use this option if you have auto-incrementing primary keys, as they will also be replaced. You most likely want to use `{:replace_all_except, [:id]}` or `{:replace, fields}` explicitly instead. This option requires a schema * `{:replace_all_except, fields}` - same as above except the given fields are not replaced. This option requires a schema * `{:replace, fields}` - replace only specific columns. This option requires `:conflict_target` * a keyword list of update instructions - such as the one given to `c:update_all/3`, for example: `[set: [title: "new title"]]` * an `Ecto.Query` that will act as an `UPDATE` statement, such as the one given to `c:update_all/3`. Similarly to `c:update_all/3`, auto generated values, such as timestamps are not automatically updated. If the struct cannot be found, `Ecto.StaleEntryError` will be raised. Upserts map to "ON CONFLICT" on databases like Postgres and "ON DUPLICATE KEY" on databases such as MySQL. As an example, imagine `:title` is marked as a unique column in the database: {:ok, inserted} = MyRepo.insert(%Post{title: "this is unique"}) Now we can insert with the same title but do nothing on conflicts: {:ok, ignored} = MyRepo.insert(%Post{title: "this is unique"}, on_conflict: :nothing) assert ignored.id == nil Because we used `on_conflict: :nothing`, instead of getting an error, we got `{:ok, struct}`. However the returned struct does not reflect the data in the database. One possible mechanism to detect if an insert or nothing happened in case of `on_conflict: :nothing` is by checking the `id` field. `id` will be nil if the field is autogenerated by the database and no insert happened. For actual upserts, where an insert or update may happen, the situation is slightly more complex, as the database does not actually inform us if an insert or update happened. Let's insert a post with the same title but use a query to update the body column in case of conflicts: # In Postgres (it requires the conflict target for updates): on_conflict = [set: [body: "updated"]] {:ok, updated} = MyRepo.insert(%Post{title: "this is unique"}, on_conflict: on_conflict, conflict_target: :title) # In MySQL (conflict target is not supported): on_conflict = [set: [title: "updated"]] {:ok, updated} = MyRepo.insert(%Post{id: inserted.id, title: "updated"}, on_conflict: on_conflict) In the examples above, even though it returned `:ok`, we do not know if we inserted new data or if we updated only the `:on_conflict` fields. In case an update happened, the data in the struct most likely does not match the data in the database. For example, autogenerated fields such as `inserted_at` will point to now rather than the time the struct was actually inserted. If you need to guarantee the data in the returned struct mirrors the database, you have three options: * Use `on_conflict: :replace_all`, although that will replace all fields in the database with the ones in the struct/changeset, including autogenerated fields such as `inserted_at` and `updated_at`: MyRepo.insert(%Post{title: "this is unique"}, on_conflict: :replace_all, conflict_target: :title) * Specify `read_after_writes: true` in your schema for choosing fields that are read from the database after every operation. Or pass `returning: true` to `insert` to read all fields back: MyRepo.insert(%Post{title: "this is unique"}, returning: true, on_conflict: on_conflict, conflict_target: :title) * Alternatively, read the data again from the database in a separate query. This option requires the primary key to be generated by the database: {:ok, updated} = MyRepo.insert(%Post{title: "this is unique"}, on_conflict: on_conflict) Repo.get(Post, updated.id) Because of the inability to know if the struct is up to date or not, inserting a struct with associations and using the `:on_conflict` option at the same time is not recommended, as Ecto will be unable to actually track the proper status of the association. """ @callback insert( struct_or_changeset :: Ecto.Schema.t() | Ecto.Changeset.t(), opts :: Keyword.t() ) :: {:ok, Ecto.Schema.t()} | {:error, Ecto.Changeset.t()} @doc """ Updates a changeset using its primary key. A changeset is required as it is the only mechanism for tracking dirty changes. Only the fields present in the `changes` part of the changeset are sent to the database. Any other, in-memory changes done to the schema are ignored. If the struct has no primary key, `Ecto.NoPrimaryKeyFieldError` will be raised. If the struct cannot be found, `Ecto.StaleEntryError` will be raised. It returns `{:ok, struct}` if the struct has been successfully updated or `{:error, changeset}` if there was a validation or a known constraint error. ## Options * `:returning` - selects which fields to return. It accepts a list of fields to be returned from the database. When `true`, returns all fields. When `false`, no extra fields are returned. It will always include all fields in `read_after_writes`. Not all databases support this option. * `:force` - By default, if there are no changes in the changeset, `c:update/2` is a no-op. By setting this option to true, update callbacks will always be executed, even if there are no changes (including timestamps). * `:prefix` - The prefix to run the query on (such as the schema path in Postgres or the database in MySQL). This overrides the prefix set in the query and any `@schema_prefix` set any schemas. Also, the `@schema_prefix` for the parent record will override all default `@schema_prefix`s set in any child schemas for associations. * `:stale_error_field` - The field where stale errors will be added in the returning changeset. This option can be used to avoid raising `Ecto.StaleEntryError`. * `:stale_error_message` - The message to add to the configured `:stale_error_field` when stale errors happen, defaults to "is stale". See the ["Shared options"](#module-shared-options) section at the module documentation for more options. ## Example post = MyRepo.get!(Post, 42) post = Ecto.Changeset.change post, title: "New title" case MyRepo.update post do {:ok, struct} -> # Updated with success {:error, changeset} -> # Something went wrong end """ @callback update(changeset :: Ecto.Changeset.t(), opts :: Keyword.t()) :: {:ok, Ecto.Schema.t()} | {:error, Ecto.Changeset.t()} @doc """ Inserts or updates a changeset depending on whether the struct is persisted or not. The distinction whether to insert or update will be made on the `Ecto.Schema.Metadata` field `:state`. The `:state` is automatically set by Ecto when loading or building a schema. Please note that for this to work, you will have to load existing structs from the database. So even if the struct exists, this won't work: struct = %Post{id: "existing_id", ...} MyRepo.insert_or_update changeset # => {:error, changeset} # id already exists ## Options * `:prefix` - The prefix to run the query on (such as the schema path in Postgres or the database in MySQL). This overrides the prefix set in the query and any `@schema_prefix` set any schemas. Also, the `@schema_prefix` for the parent record will override all default `@schema_prefix`s set in any child schemas for associations. * `:stale_error_field` - The field where stale errors will be added in the returning changeset. This option can be used to avoid raising `Ecto.StaleEntryError`. Only applies to updates. * `:stale_error_message` - The message to add to the configured `:stale_error_field` when stale errors happen, defaults to "is stale". Only applies to updates. See the ["Shared options"](#module-shared-options) section at the module documentation for more options. ## Example result = case MyRepo.get(Post, id) do nil -> %Post{id: id} # Post not found, we build one post -> post # Post exists, let's use it end |> Post.changeset(changes) |> MyRepo.insert_or_update case result do {:ok, struct} -> # Inserted or updated with success {:error, changeset} -> # Something went wrong end """ @callback insert_or_update(changeset :: Ecto.Changeset.t(), opts :: Keyword.t()) :: {:ok, Ecto.Schema.t()} | {:error, Ecto.Changeset.t()} @doc """ Deletes a struct using its primary key. If the struct has no primary key, `Ecto.NoPrimaryKeyFieldError` will be raised. If the struct has been removed from db prior to call, `Ecto.StaleEntryError` will be raised. It returns `{:ok, struct}` if the struct has been successfully deleted or `{:error, changeset}` if there was a validation or a known constraint error. ## Options * `:prefix` - The prefix to run the query on (such as the schema path in Postgres or the database in MySQL). This overrides the prefix set in the query and any `@schema_prefix` set in the schema. * `:stale_error_field` - The field where stale errors will be added in the returning changeset. This option can be used to avoid raising `Ecto.StaleEntryError`. * `:stale_error_message` - The message to add to the configured `:stale_error_field` when stale errors happen, defaults to "is stale". See the ["Shared options"](#module-shared-options) section at the module documentation for more options. ## Example post = MyRepo.get!(Post, 42) case MyRepo.delete post do {:ok, struct} -> # Deleted with success {:error, changeset} -> # Something went wrong end """ @callback delete( struct_or_changeset :: Ecto.Schema.t() | Ecto.Changeset.t(), opts :: Keyword.t() ) :: {:ok, Ecto.Schema.t()} | {:error, Ecto.Changeset.t()} @doc """ Same as `c:insert/2` but returns the struct or raises if the changeset is invalid. """ @callback insert!( struct_or_changeset :: Ecto.Schema.t() | Ecto.Changeset.t(), opts :: Keyword.t() ) :: Ecto.Schema.t() @doc """ Same as `c:update/2` but returns the struct or raises if the changeset is invalid. """ @callback update!(changeset :: Ecto.Changeset.t(), opts :: Keyword.t()) :: Ecto.Schema.t() @doc """ Same as `c:insert_or_update/2` but returns the struct or raises if the changeset is invalid. """ @callback insert_or_update!(changeset :: Ecto.Changeset.t(), opts :: Keyword.t()) :: Ecto.Schema.t() @doc """ Same as `c:delete/2` but returns the struct or raises if the changeset is invalid. """ @callback delete!( struct_or_changeset :: Ecto.Schema.t() | Ecto.Changeset.t(), opts :: Keyword.t() ) :: Ecto.Schema.t() ## Ecto.Adapter.Transaction @optional_callbacks transaction: 2, in_transaction?: 0, rollback: 1 @doc """ Runs the given function or `Ecto.Multi` inside a transaction. ## Use with function `c:transaction/2` can be called with both a function of arity zero or one. The arity zero function will just be executed as is, while the arity one function will receive the repo of the transaction as its first argument, similar to `Ecto.Multi.run/3`. If an unhandled error occurs the transaction will be rolled back and the error will bubble up from the transaction function. If no error occurred the transaction will be committed when the function returns. A transaction can be explicitly rolled back by calling `c:rollback/1`, this will immediately leave the function and return the value given to `rollback` as `{:error, value}`. A successful transaction returns the value returned by the function wrapped in a tuple as `{:ok, value}`. If `c:transaction/2` is called inside another transaction, the function is simply executed, without wrapping the new transaction call in any way. If there is an error in the inner transaction and the error is rescued, or the inner transaction is rolled back, the whole outer transaction is marked as tainted, guaranteeing nothing will be committed. ## Use with Ecto.Multi Besides functions, transactions can be used with an `Ecto.Multi` struct. A transaction will be started, all operations applied and in case of success committed returning `{:ok, changes}`. In case of any errors the transaction will be rolled back and `{:error, failed_operation, failed_value, changes_so_far}` will be returned. You can read more about using transactions with `Ecto.Multi` as well as see some examples in the `Ecto.Multi` documentation. ## Options See the ["Shared options"](#module-shared-options) section at the module documentation for more options. ## Examples import Ecto.Changeset, only: [change: 2] MyRepo.transaction(fn -> MyRepo.update!(change(alice, balance: alice.balance - 10)) MyRepo.update!(change(bob, balance: bob.balance + 10)) end) # When passing a function of arity 1, it receives the repository itself MyRepo.transaction(fn repo -> repo.insert!(%Post{}) end) # Roll back a transaction explicitly MyRepo.transaction(fn -> p = MyRepo.insert!(%Post{}) if not Editor.post_allowed?(p) do MyRepo.rollback(:posting_not_allowed) end end) # With Ecto.Multi Ecto.Multi.new() |> Ecto.Multi.insert(:post, %Post{}) |> MyRepo.transaction """ @callback transaction(fun_or_multi :: fun | Ecto.Multi.t(), opts :: Keyword.t()) :: {:ok, any} | {:error, any} | {:error, Ecto.Multi.name(), any, %{Ecto.Multi.name() => any}} @doc """ Returns true if the current process is inside a transaction. If you are using the `Ecto.Adapters.SQL.Sandbox` in tests, note that even though each test is inside a transaction, `in_transaction?/0` will only return true inside transactions explicitly created with `transaction/2`. This is done so the test environment mimics dev and prod. If you are trying to debug transaction-related code while using `Ecto.Adapters.SQL.Sandbox`, it may be more helpful to configure the database to log all statements and consult those logs. ## Examples MyRepo.in_transaction? #=> false MyRepo.transaction(fn -> MyRepo.in_transaction? #=> true end) """ @callback in_transaction?() :: boolean @doc """ Rolls back the current transaction. The transaction will return the value given as `{:error, value}`. Note that calling `rollback` causes the code in the transaction to stop executing. """ @callback rollback(value :: any) :: no_return end