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+# Mojom Interface Definition Language (IDL)
+This document is a subset of the [Mojo documentation](/mojo/README.md).
+
+[TOC]
+
+## Overview
+
+Mojom is the IDL for Mojo interfaces. Given a `.mojom` file, the
+[bindings
+generator](https://cs.chromium.org/chromium/src/mojo/public/tools/bindings/) can
+output bindings for any supported language: **C++**, **JavaScript**, or
+**Java**.
+
+For a trivial example consider the following hypothetical Mojom file we write to
+`//services/widget/public/mojom/frobinator.mojom`:
+
+```
+module widget.mojom;
+
+interface Frobinator {
+  Frobinate();
+};
+```
+
+This defines a single [interface](#Interfaces) named `Frobinator` in a
+[module](#Modules) named `widget.mojom` (and thus fully qualified in Mojom as
+`widget.mojom.Frobinator`.) Note that many interfaces and/or other types of
+definitions (structs, enums, *etc.*) may be included in a single Mojom file.
+
+If we add a corresponding GN target to
+`//services/widget/public/mojom/BUILD.gn`:
+
+```
+import("mojo/public/tools/bindings/mojom.gni")
+
+mojom("mojom") {
+  sources = [
+    "frobinator.mojom",
+  ]
+}
+```
+
+and then build this target:
+
+```
+ninja -C out/r services/widget/public/mojom
+```
+
+we'll find several generated sources in our output directory:
+
+```
+out/r/gen/services/widget/public/mojom/frobinator.mojom.cc
+out/r/gen/services/widget/public/mojom/frobinator.mojom.h
+out/r/gen/services/widget/public/mojom/frobinator.mojom-shared.h
+etc...
+```
+
+Each of these generated source modules includes a set of definitions
+representing the Mojom contents in C++. You can also build or depend on suffixed
+target names to get bindings for other languages. For example,
+
+```
+ninja -C out/r services/widget/public/mojom:mojom_js
+ninja -C out/r services/widget/public/mojom:mojom_java
+```
+
+would generate JavaScript and Java bindings respectively, in the same generated
+output directory.
+
+For more details regarding the generated
+outputs please see
+[documentation for individual target languages](#Generated-Code-For-Target-Languages).
+
+## Mojom Syntax
+
+Mojom IDL allows developers to define **structs**, **unions**, **interfaces**,
+**constants**, and **enums**, all within the context of a **module**. These
+definitions are used to generate code in the supported target languages at build
+time.
+
+Mojom files may **import** other Mojom files in order to reference their
+definitions.
+
+### Primitive Types
+Mojom supports a few basic data types which may be composed into structs or used
+for message parameters.
+
+| Type                          | Description
+|-------------------------------|-------------------------------------------------------|
+| `bool`                        | Boolean type (`true` or `false`.)
+| `int8`, `uint8`               | Signed or unsigned 8-bit integer.
+| `int16`, `uint16`             | Signed or unsigned 16-bit integer.
+| `int32`, `uint32`             | Signed or unsigned 32-bit integer.
+| `int64`, `uint64`             | Signed or unsigned 64-bit integer.
+| `float`, `double`             | 32- or 64-bit floating point number.
+| `string`                      | UTF-8 encoded string.
+| `array<T>`                    | Array of any Mojom type *T*; for example, `array<uint8>` or `array<array<string>>`.
+| `array<T, N>`                 | Fixed-length array of any Mojom type *T*. The parameter *N* must be an integral constant.
+| `map<S, T>`                   | Associated array maping values of type *S* to values of type *T*. *S* may be a `string`, `enum`, or numeric type.
+| `handle`                      | Generic Mojo handle. May be any type of handle, including a wrapped native platform handle.
+| `handle<message_pipe>`        | Generic message pipe handle.
+| `handle<shared_buffer>`       | Shared buffer handle.
+| `handle<data_pipe_producer>`  | Data pipe producer handle.
+| `handle<data_pipe_consumer>`  | Data pipe consumer handle.
+| `handle<platform>`            | A native platform/OS handle.
+| *`pending_remote<InterfaceType>`*             | Any user-defined Mojom interface type. This is sugar for a strongly-typed message pipe handle which should eventually be used to make outgoing calls on the interface.
+| *`pending_receiver<InterfaceType>`*            | A pending receiver for any user-defined Mojom interface type. This is sugar for a more strongly-typed message pipe handle which is expected to receive request messages and should therefore eventually be bound to an implementation of the interface.
+| *`pending_associated_remote<InterfaceType>`*  | An associated interface handle. See [Associated Interfaces](#Associated-Interfaces)
+| *`pending_associated_receiver<InterfaceType>`* | A pending associated receiver. See [Associated Interfaces](#Associated-Interfaces)
+| *T*?                          | An optional (nullable) value. Primitive numeric types (integers, floats, booleans, and enums) are not nullable. All other types are nullable.
+
+### Modules
+
+Every Mojom file may optionally specify a single **module** to which it belongs.
+
+This is used strictly for aggregaging all defined symbols therein within a
+common Mojom namespace. The specific impact this has on generated binidngs code
+varies for each target language. For example, if the following Mojom is used to
+generate bindings:
+
+```
+module business.stuff;
+
+interface MoneyGenerator {
+  GenerateMoney();
+};
+```
+
+Generated C++ bindings will define a class interface `MoneyGenerator` in the
+`business::stuff` namespace, while Java bindings will define an interface
+`MoneyGenerator` in the `org.chromium.business.stuff` package. JavaScript
+bindings at this time are unaffected by module declarations.
+
+**NOTE:** By convention in the Chromium codebase, **all** Mojom files should
+declare a module name with at least (and preferrably exactly) one top-level name
+as well as an inner `mojom` module suffix. *e.g.*, `chrome.mojom`,
+`business.mojom`, *etc.*
+
+This convention makes it easy to tell which symbols are generated by Mojom when
+reading non-Mojom code, and it also avoids namespace collisions in the fairly
+common scenario where you have a real C++ or Java `Foo` along with a
+corresponding Mojom `Foo` for its serialized representation.
+
+### Imports
+
+If your Mojom references definitions from other Mojom files, you must **import**
+those files. Import syntax is as follows:
+
+```
+import "services/widget/public/mojom/frobinator.mojom";
+```
+
+Import paths are always relative to the top-level directory.
+
+Note that circular imports are **not** supported.
+
+### Structs
+
+Structs are defined using the **struct** keyword, and they provide a way to
+group related fields together:
+
+``` cpp
+struct StringPair {
+  string first;
+  string second;
+};
+```
+
+Struct fields may be comprised of any of the types listed above in the
+[Primitive Types](#Primitive-Types) section.
+
+Default values may be specified as long as they are constant:
+
+``` cpp
+struct Request {
+  int32 id = -1;
+  string details;
+};
+```
+
+What follows is a fairly
+comprehensive example using the supported field types:
+
+``` cpp
+struct StringPair {
+  string first;
+  string second;
+};
+
+enum AnEnum {
+  YES,
+  NO
+};
+
+interface SampleInterface {
+  DoStuff();
+};
+
+struct AllTheThings {
+  // Note that these types can never be marked nullable!
+  bool boolean_value;
+  int8 signed_8bit_value = 42;
+  uint8 unsigned_8bit_value;
+  int16 signed_16bit_value;
+  uint16 unsigned_16bit_value;
+  int32 signed_32bit_value;
+  uint32 unsigned_32bit_value;
+  int64 signed_64bit_value;
+  uint64 unsigned_64bit_value;
+  float float_value_32bit;
+  double float_value_64bit;
+  AnEnum enum_value = AnEnum.YES;
+
+  // Strings may be nullable.
+  string? maybe_a_string_maybe_not;
+
+  // Structs may contain other structs. These may also be nullable.
+  StringPair some_strings;
+  StringPair? maybe_some_more_strings;
+
+  // In fact structs can also be nested, though in practice you must always make
+  // such fields nullable -- otherwise messages would need to be infinitely long
+  // in order to pass validation!
+  AllTheThings? more_things;
+
+  // Arrays may be templated over any Mojom type, and are always nullable:
+  array<int32> numbers;
+  array<int32>? maybe_more_numbers;
+
+  // Arrays of arrays of arrays... are fine.
+  array<array<array<AnEnum>>> this_works_but_really_plz_stop;
+
+  // The element type may be nullable if it's a type which is allowed to be
+  // nullable.
+  array<AllTheThings?> more_maybe_things;
+
+  // Fixed-size arrays get some extra validation on the receiving end to ensure
+  // that the correct number of elements is always received.
+  array<uint64, 2> uuid;
+
+  // Maps follow many of the same rules as arrays. Key types may be any
+  // non-handle, non-collection type, and value types may be any supported
+  // struct field type. Maps may also be nullable.
+  map<string, int32> one_map;
+  map<AnEnum, string>? maybe_another_map;
+  map<StringPair, AllTheThings?>? maybe_a_pretty_weird_but_valid_map;
+  map<StringPair, map<int32, array<map<string, string>?>?>?> ridiculous;
+
+  // And finally, all handle types are valid as struct fields and may be
+  // nullable. Note that interfaces and interface requests (the "Foo" and
+  // "Foo&" type syntax respectively) are just strongly-typed message pipe
+  // handles.
+  handle generic_handle;
+  handle<data_pipe_consumer> reader;
+  handle<data_pipe_producer>? maybe_writer;
+  handle<shared_buffer> dumping_ground;
+  handle<message_pipe> raw_message_pipe;
+  pending_remote<SampleInterface>? maybe_a_sample_interface_client_pipe;
+  pending_receiver<SampleInterface> non_nullable_sample_pending_receiver;
+  pending_receiver<SampleInterface>? nullable_sample_pending_receiver;
+  pending_associated_remote<SampleInterface> associated_interface_client;
+  pending_associated_receiver<SampleInterface> associated_pending_receiver;
+  pending_associated_receiver<SampleInterface>? maybe_another_pending_receiver;
+};
+```
+
+For details on how all of these different types translate to usable generated
+code, see
+[documentation for individual target languages](#Generated-Code-For-Target-Languages).
+
+### Unions
+
+Mojom supports tagged unions using the **union** keyword. A union is a
+collection of fields which may taken the value of any single one of those fields
+at a time. Thus they provide a way to represent a variant value type while
+minimizing storage requirements.
+
+Union fields may be of any type supported by [struct](#Structs) fields. For
+example:
+
+```cpp
+union ExampleUnion {
+  string str;
+  StringPair pair;
+  int64 id;
+  array<uint64, 2> guid;
+  SampleInterface iface;
+};
+```
+
+For details on how unions like this translate to generated bindings code, see
+[documentation for individual target languages](#Generated-Code-For-Target-Languages).
+
+### Enumeration Types
+
+Enumeration types may be defined using the **enum** keyword either directly
+within a module or nested within the namespace of some struct or interface:
+
+```
+module business.mojom;
+
+enum Department {
+  SALES = 0,
+  DEV,
+};
+
+struct Employee {
+  enum Type {
+    FULL_TIME,
+    PART_TIME,
+  };
+
+  Type type;
+  // ...
+};
+```
+
+Similar to C-style enums, individual values may be explicitly assigned within an
+enum definition. By default, values are based at zero and increment by
+1 sequentially.
+
+The effect of nested definitions on generated bindings varies depending on the
+target language. See [documentation for individual target languages](#Generated-Code-For-Target-Languages)
+
+### Constants
+
+Constants may be defined using the **const** keyword either directly within a
+module or nested within the namespace of some struct or interface:
+
+```
+module business.mojom;
+
+const string kServiceName = "business";
+
+struct Employee {
+  const uint64 kInvalidId = 0;
+
+  enum Type {
+    FULL_TIME,
+    PART_TIME,
+  };
+
+  uint64 id = kInvalidId;
+  Type type;
+};
+```
+
+The effect of nested definitions on generated bindings varies depending on the
+target language. See [documentation for individual target languages](#Generated-Code-For-Target-Languages)
+
+### Interfaces
+
+An **interface** is a logical bundle of parameterized request messages. Each
+request message may optionally define a parameterized response message. Here's
+an example to define an interface `Foo` with various kinds of requests:
+
+```
+interface Foo {
+  // A request which takes no arguments and expects no response.
+  MyMessage();
+
+  // A request which has some arguments and expects no response.
+  MyOtherMessage(string name, array<uint8> bytes);
+
+  // A request which expects a single-argument response.
+  MyMessageWithResponse(string command) => (bool success);
+
+  // A request which expects a response with multiple arguments.
+  MyMessageWithMoarResponse(string a, string b) => (int8 c, int8 d);
+};
+```
+
+Anything which is a valid struct field type (see [Structs](#Structs)) is also a
+valid request or response argument type. The type notation is the same for both.
+
+### Attributes
+
+Mojom definitions may have their meaning altered by **attributes**, specified
+with a syntax similar to Java or C# attributes. There are a handle of
+interesting attributes supported today.
+
+**`[Sync]`**
+:   The `Sync` attribute may be specified for any interface method which expects
+    a response. This makes it so that callers of the method can wait
+    synchronously for a response. See
+    [Synchronous Calls](/mojo/public/cpp/bindings/README.md#Synchronous-Calls)
+    in the C++ bindings documentation. Note that sync methods are only actually
+    synchronous when called from C++.
+
+**`[Extensible]`**
+:   The `Extensible` attribute may be specified for any enum definition. This
+    essentially disables builtin range validation when receiving values of the
+    enum type in a message, allowing older bindings to tolerate unrecognized
+    values from newer versions of the enum.
+
+**`[Native]`**
+:   The `Native` attribute may be specified for an empty struct declaration to
+    provide a nominal bridge between Mojo IPC and legacy `IPC::ParamTraits` or
+    `IPC_STRUCT_TRAITS*` macros.
+    See
+    [Repurposing Legacy IPC Traits](/docs/mojo_ipc_conversion.md#repurposing-and-invocations)
+    for more details. Note support for this attribute is strictly limited to C++
+    bindings generation.
+
+**`[MinVersion=N]`**
+:   The `MinVersion` attribute is used to specify the version at which a given
+    field, enum value, interface method, or method parameter was introduced.
+    See [Versioning](#Versioning) for more details.
+
+**`[Stable]`**
+:   The `Stable` attribute specifies that a given mojom type or interface
+    definition can be considered stable over time, meaning it is safe to use for
+    things like persistent storage or communication between independent
+    version-skewed binaries. Stable definitions may only depend on builtin mojom
+    types or other stable definitions, and changes to such definitions MUST
+    preserve backward-compatibility through appropriate use of versioning.
+    Backward-compatibility of changes is enforced in the Chromium tree using a
+    strict presubmit check. See [Versioning](#Versioning) for more details on
+    backward-compatibility constraints.
+
+**`[EnableIf=value]`**
+:   The `EnableIf` attribute is used to conditionally enable definitions when
+    the mojom is parsed. If the `mojom` target in the GN file does not include
+    the matching `value` in the list of `enabled_features`, the definition
+    will be disabled. This is useful for mojom definitions that only make
+    sense on one platform. Note that the `EnableIf` attribute can only be set
+    once per definition.
+
+## Generated Code For Target Languages
+
+When the bindings generator successfully processes an input Mojom file, it emits
+corresponding code for each supported target language. For more details on how
+Mojom concepts translate to a given target langauge, please refer to the
+bindings API documentation for that language:
+
+* [C++ Bindings](/mojo/public/cpp/bindings/README.md)
+* [JavaScript Bindings](/mojo/public/js/README.md)
+* [Java Bindings](/mojo/public/java/bindings/README.md)
+
+## Message Validation
+
+Regardless of target language, all interface messages are validated during
+deserialization before they are dispatched to a receiving implementation of the
+interface. This helps to ensure consitent validation across interfaces without
+leaving the burden to developers and security reviewers every time a new message
+is added.
+
+If a message fails validation, it is never dispatched. Instead a **connection
+error** is raised on the binding object (see
+[C++ Connection Errors](/mojo/public/cpp/bindings/README.md#Connection-Errors),
+[Java Connection Errors](/mojo/public/java/bindings/README.md#Connection-Errors),
+or
+[JavaScript Connection Errors](/mojo/public/js/README.md#Connection-Errors) for
+details.)
+
+Some baseline level of validation is done automatically for primitive Mojom
+types.
+
+### Non-Nullable Objects
+
+Mojom fields or parameter values (*e.g.*, structs, interfaces, arrays, *etc.*)
+may be marked nullable in Mojom definitions (see
+[Primitive Types](#Primitive-Types).) If a field or parameter is **not** marked
+nullable but a message is received with a null value in its place, that message
+will fail validation.
+
+### Enums
+
+Enums declared in Mojom are automatically validated against the range of legal
+values. For example if a Mojom declares the enum:
+
+``` cpp
+enum AdvancedBoolean {
+  TRUE = 0,
+  FALSE = 1,
+  FILE_NOT_FOUND = 2,
+};
+```
+
+and a message is received with the integral value 3 (or anything other than 0,
+1, or 2) in place of some `AdvancedBoolean` field or parameter, the message will
+fail validation.
+
+*** note
+NOTE: It's possible to avoid this type of validation error by explicitly marking
+an enum as [Extensible](#Attributes) if you anticipate your enum being exchanged
+between two different versions of the binding interface. See
+[Versioning](#Versioning).
+***
+
+### Other failures
+
+There are a  host of internal validation errors that may occur when a malformed
+message is received, but developers should not be concerned with these
+specifically; in general they can only result from internal bindings bugs,
+compromised processes, or some remote endpoint making a dubious effort to
+manually encode their own bindings messages.
+
+### Custom Validation
+
+It's also possible for developers to define custom validation logic for specific
+Mojom struct types by exploiting the
+[type mapping](/mojo/public/cpp/bindings/README.md#Type-Mapping) system for C++
+bindings. Messages rejected by custom validation logic trigger the same
+validation failure behavior as the built-in type validation routines.
+
+## Associated Interfaces
+
+As mentioned in the [Primitive Types](#Primitive-Types) section above, pending_remote
+and pending_receiver fields and parameters may be marked as `associated`. This
+essentially means that they are piggy-backed on some other interface's message
+pipe.
+
+Because individual interface message pipes operate independently there can be no
+relative ordering guarantees among them. Associated interfaces are useful when
+one interface needs to guarantee strict FIFO ordering with respect to one or
+more other interfaces, as they allow interfaces to share a single pipe.
+
+Currently associated interfaces are only supported in generated C++ bindings.
+See the documentation for
+[C++ Associated Interfaces](/mojo/public/cpp/bindings/README.md#Associated-Interfaces).
+
+## Versioning
+
+### Overview
+
+*** note
+**NOTE:** You don't need to worry about versioning if you don't care about
+backwards compatibility. Specifically, all parts of Chrome are updated
+atomically today and there is not yet any possibility of any two Chrome
+processes communicating with two different versions of any given Mojom
+interface.
+***
+
+Services extend their interfaces to support new features over time, and clients
+want to use those new features when they are available. If services and clients
+are not updated at the same time, it's important for them to be able to
+communicate with each other using different snapshots (versions) of their
+interfaces.
+
+This document shows how to extend Mojom interfaces in a backwards-compatible
+way. Changing interfaces in a non-backwards-compatible way is not discussed,
+because in that case communication between different interface versions is
+impossible anyway.
+
+### Versioned Structs
+
+You can use the `MinVersion` [attribute](#Attributes) to indicate from which
+version a struct field is introduced. Assume you have the following struct:
+
+``` cpp
+struct Employee {
+  uint64 employee_id;
+  string name;
+};
+```
+
+and you would like to add a birthday field. You can do:
+
+``` cpp
+struct Employee {
+  uint64 employee_id;
+  string name;
+  [MinVersion=1] Date? birthday;
+};
+```
+
+By default, fields belong to version 0. New fields must be appended to the
+struct definition (*i.e*., existing fields must not change **ordinal value**)
+with the `MinVersion` attribute set to a number greater than any previous
+existing versions.
+
+*** note
+**NOTE:** do not change existing fields in versioned structs, as this is
+not backwards-compatible. Instead, rename the old field to make its
+deprecation clear and add a new field with the new version number.
+***
+
+**Ordinal value** refers to the relative positional layout of a struct's fields
+(and an interface's methods) when encoded in a message. Implicitly, ordinal
+numbers are assigned to fields according to lexical position. In the example
+above, `employee_id` has an ordinal value of 0 and `name` has an ordinal value
+of 1.
+
+Ordinal values can be specified explicitly using `**@**` notation, subject to
+the following hard constraints:
+
+* For any given struct or interface, if any field or method explicitly specifies
+    an ordinal value, all fields or methods must explicitly specify an ordinal
+    value.
+* For an *N*-field struct or *N*-method interface, the set of explicitly
+    assigned ordinal values must be limited to the range *[0, N-1]*. Interfaces
+    should include placeholder methods to fill the ordinal positions of removed
+    methods (for example "Unused_Message_7@7()" or "RemovedMessage@42()", etc).
+
+You may reorder fields, but you must ensure that the ordinal values of existing
+fields remain unchanged. For example, the following struct remains
+backwards-compatible:
+
+``` cpp
+struct Employee {
+  uint64 employee_id@0;
+  [MinVersion=1] Date? birthday@2;
+  string name@1;
+};
+```
+
+*** note
+**NOTE:** Newly added fields of Mojo object or handle types MUST be nullable.
+See [Primitive Types](#Primitive-Types).
+***
+
+### Versioned Interfaces
+
+There are two dimensions on which an interface can be extended
+
+**Appending New Parameters To Existing Methods**
+:   Parameter lists are treated as structs internally, so all the rules of
+    versioned structs apply to method parameter lists. The only difference is
+    that the version number is scoped to the whole interface rather than to any
+    individual parameter list.
+
+    Please note that adding a response to a message which did not previously
+    expect a response is a not a backwards-compatible change.
+
+**Appending New Methods**
+:   Similarly, you can reorder methods with explicit ordinal values as long as
+    the ordinal values of existing methods are unchanged.
+
+For example:
+
+``` cpp
+// Old version:
+interface HumanResourceDatabase {
+  AddEmployee(Employee employee) => (bool success);
+  QueryEmployee(uint64 id) => (Employee? employee);
+};
+
+// New version:
+interface HumanResourceDatabase {
+  AddEmployee(Employee employee) => (bool success);
+
+  QueryEmployee(uint64 id, [MinVersion=1] bool retrieve_finger_print)
+      => (Employee? employee,
+          [MinVersion=1] array<uint8>? finger_print);
+
+  [MinVersion=1]
+  AttachFingerPrint(uint64 id, array<uint8> finger_print)
+      => (bool success);
+};
+```
+
+Similar to [versioned structs](#Versioned-Structs), when you pass the parameter
+list of a request or response method to a destination using an older version of
+an interface, unrecognized fields are silently discarded. However, if the method
+call itself is not recognized, it is considered a validation error and the
+receiver will close its end of the interface pipe. For example, if a client on
+version 1 of the above interface sends an `AttachFingerPrint` request to an
+implementation of version 0, the client will be disconnected.
+
+Bindings target languages that support versioning expose means to query or
+assert the remote version from a client handle (*e.g.*, an
+`mojo::Remote<T>` in C++ bindings.)
+
+See
+[C++ Versioning Considerations](/mojo/public/cpp/bindings/README.md#Versioning-Considerations)
+and
+[Java Versioning Considerations](/mojo/public/java/bindings/README.md#Versioning-Considerations)
+
+### Versioned Enums
+
+**By default, enums are non-extensible**, which means that generated message
+validation code does not expect to see new values in the future. When an unknown
+value is seen for a non-extensible enum field or parameter, a validation error
+is raised.
+
+If you want an enum to be extensible in the future, you can apply the
+`[Extensible]` [attribute](#Attributes):
+
+``` cpp
+[Extensible]
+enum Department {
+  SALES,
+  DEV,
+};
+```
+
+And later you can extend this enum without breaking backwards compatibility:
+
+``` cpp
+[Extensible]
+enum Department {
+  SALES,
+  DEV,
+  [MinVersion=1] RESEARCH,
+};
+```
+
+*** note
+**NOTE:** For versioned enum definitions, the use of a `[MinVersion]` attribute
+is strictly for documentation purposes. It has no impact on the generated code.
+***
+
+With extensible enums, bound interface implementations may receive unknown enum
+values and will need to deal with them gracefully. See
+[C++ Versioning Considerations](/mojo/public/cpp/bindings/README.md#Versioning-Considerations)
+for details.
+
+## Grammar Reference
+
+Below is the (BNF-ish) context-free grammar of the Mojom language:
+
+```
+MojomFile = StatementList
+StatementList = Statement StatementList | Statement
+Statement = ModuleStatement | ImportStatement | Definition
+
+ModuleStatement = AttributeSection "module" Identifier ";"
+ImportStatement = "import" StringLiteral ";"
+Definition = Struct Union Interface Enum Const
+
+AttributeSection = <empty> | "[" AttributeList "]"
+AttributeList = <empty> | NonEmptyAttributeList
+NonEmptyAttributeList = Attribute
+                      | Attribute "," NonEmptyAttributeList
+Attribute = Name
+          | Name "=" Name
+          | Name "=" Literal
+
+Struct = AttributeSection "struct" Name "{" StructBody "}" ";"
+       | AttributeSection "struct" Name ";"
+StructBody = <empty>
+           | StructBody Const
+           | StructBody Enum
+           | StructBody StructField
+StructField = AttributeSection TypeSpec Name Ordinal Default ";"
+
+Union = AttributeSection "union" Name "{" UnionBody "}" ";"
+UnionBody = <empty> | UnionBody UnionField
+UnionField = AttributeSection TypeSpec Name Ordinal ";"
+
+Interface = AttributeSection "interface" Name "{" InterfaceBody "}" ";"
+InterfaceBody = <empty>
+              | InterfaceBody Const
+              | InterfaceBody Enum
+              | InterfaceBody Method
+Method = AttributeSection Name Ordinal "(" ParamterList ")" Response ";"
+ParameterList = <empty> | NonEmptyParameterList
+NonEmptyParameterList = Parameter
+                      | Parameter "," NonEmptyParameterList
+Parameter = AttributeSection TypeSpec Name Ordinal
+Response = <empty> | "=>" "(" ParameterList ")"
+
+TypeSpec = TypeName "?" | TypeName
+TypeName = BasicTypeName
+         | Array
+         | FixedArray
+         | Map
+         | InterfaceRequest
+BasicTypeName = Identifier | "associated" Identifier | HandleType | NumericType
+NumericType = "bool" | "int8" | "uint8" | "int16" | "uint16" | "int32"
+            | "uint32" | "int64" | "uint64" | "float" | "double"
+HandleType = "handle" | "handle" "<" SpecificHandleType ">"
+SpecificHandleType = "message_pipe"
+                   | "shared_buffer"
+                   | "data_pipe_consumer"
+                   | "data_pipe_producer"
+                   | "platform"
+Array = "array" "<" TypeSpec ">"
+FixedArray = "array" "<" TypeSpec "," IntConstDec ">"
+Map = "map" "<" Identifier "," TypeSpec ">"
+InterfaceRequest = Identifier "&" | "associated" Identifier "&"
+
+Ordinal = <empty> | OrdinalValue
+
+Default = <empty> | "=" Constant
+
+Enum = AttributeSection "enum" Name "{" NonEmptyEnumValueList "}" ";"
+     | AttributeSection "enum" Name "{" NonEmptyEnumValueList "," "}" ";"
+NonEmptyEnumValueList = EnumValue | NonEmptyEnumValueList "," EnumValue
+EnumValue = AttributeSection Name
+          | AttributeSection Name "=" Integer
+          | AttributeSection Name "=" Identifier
+
+Const = "const" TypeSpec Name "=" Constant ";"
+
+Constant = Literal | Identifier ";"
+
+Identifier = Name | Name "." Identifier
+
+Literal = Integer | Float | "true" | "false" | "default" | StringLiteral
+
+Integer = IntConst | "+" IntConst | "-" IntConst
+IntConst = IntConstDec | IntConstHex
+
+Float = FloatConst | "+" FloatConst | "-" FloatConst
+
+; The rules below are for tokens matched strictly according to the given regexes
+
+Identifier = /[a-zA-Z_][0-9a-zA-Z_]*/
+IntConstDec = /0|(1-9[0-9]*)/
+IntConstHex = /0[xX][0-9a-fA-F]+/
+OrdinalValue = /@(0|(1-9[0-9]*))/
+FloatConst = ... # Imagine it's close enough to C-style float syntax.
+StringLiteral = ... # Imagine it's close enough to C-style string literals, including escapes.
+```
+
+## Additional Documentation
+
+[Mojom Message Format](https://docs.google.com/document/d/13pv9cFh5YKuBggDBQ1-AL8VReF-IYpFOFpRfvWFrwio/edit)
+:    Describes the wire format used by Mojo bindings interfaces over message
+     pipes.
+
+[Input Format of Mojom Message Validation Tests](https://docs.google.com/document/d/1-y-2IYctyX2NPaLxJjpJfzVNWCC2SR2MJAD9MpIytHQ/edit)
+:    Describes a text format used to facilitate bindings message validation
+     tests.