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IDL Language

    Introduction

    This document defines Avro IDL, a higher-level language for authoring Avro schemata. Before reading this document, you should have familiarity with the concepts of schemata and protocols, as well as the various primitive and complex types available in Avro.

    Overview

    Purpose

    The aim of the Avro IDL language is to enable developers to author schemata in a way that feels more similar to common programming languages like Java, C++, or Python. Additionally, the Avro IDL language may feel more familiar for those users who have previously used the interface description languages (IDLs) in other frameworks like Thrift, Protocol Buffers, or CORBA.

    Usage

    Each Avro IDL file defines a single Avro Protocol, and thus generates as its output a JSON-format Avro Protocol file with extension .avpr.

    To convert a .avdl file into a .avpr file, it may be processed by the idl tool. For example:

    $ java -jar avro-tools.jar idl src/test/idl/input/namespaces.avdl /tmp/namespaces.avpr
    $ head /tmp/namespaces.avpr
    {
      "protocol" : "TestNamespace",
      "namespace" : "avro.test.protocol",
    

    The idl tool can also process input to and from stdin and stdout. See idl --help for full usage information.

    A Maven plugin is also provided to compile .avdl files. To use it, add something like the following to your pom.xml:

    <build>
      <plugins>
        <plugin>
          <groupId>org.apache.avro</groupId>
          <artifactId>avro-maven-plugin</artifactId>
          <executions>
            <execution>
              <goals>
                <goal>idl-protocol</goal>
              </goals>
            </execution>
          </executions>
        </plugin>
      </plugins>
    </build>
    

    Defining a Protocol in Avro IDL

    An Avro IDL file consists of exactly one protocol definition. The minimal protocol is defined by the following code:

    protocol MyProtocol {
    }
    

    This is equivalent to (and generates) the following JSON protocol definition:

    {
    "protocol" : "MyProtocol",
      "types" : [ ],
      "messages" : {
      }
    }
    

    The namespace of the protocol may be changed using the @namespace annotation:

    @namespace("mynamespace")
    protocol MyProtocol {
    }
    

    This notation is used throughout Avro IDL as a way of specifying properties for the annotated element, as will be described later in this document.

    Protocols in Avro IDL can contain the following items:

    • Imports of external protocol and schema files.
    • Definitions of named schemata, including records, errors, enums, and fixeds.
    • Definitions of RPC messages

    Imports

    Files may be imported in one of three formats:

    • An IDL file may be imported with a statement like:

      import idl "foo.avdl";

    • A JSON protocol file may be imported with a statement like:

      import protocol "foo.avpr";

    • A JSON schema file may be imported with a statement like:

      import schema "foo.avsc";

    Messages and types in the imported file are added to this file’s protocol.

    Imported file names are resolved relative to the current IDL file.

    Defining an Enumeration

    Enums are defined in Avro IDL using a syntax similar to C or Java. An Avro Enum supports optional default values. In the case that a reader schema is unable to recognize a symbol written by the writer, the reader will fall back to using the defined default value. This default is only used when an incompatible symbol is read. It is not used if the enum field is missing.

    Example Writer Enum Definition

    enum Shapes {
      SQUARE, TRIANGLE, CIRCLE, OVAL
    }
    

    Example Reader Enum Definition

    enum Shapes {
      SQUARE, TRIANGLE, CIRCLE
    } = CIRCLE;
    

    In the above example, the reader will use the default value of CIRCLE whenever reading data written with the OVAL symbol of the writer. Also note that, unlike the JSON format, anonymous enums cannot be defined.

    Defining a Fixed Length Field

    Fixed fields are defined using the following syntax:

    fixed MD5(16);
    

    This example defines a fixed-length type called MD5 which contains 16 bytes.

    Defining Records and Errors

    Records are defined in Avro IDL using a syntax similar to a struct definition in C:

    record Employee {
      string name;
      boolean active = true;
      long salary;
    }
    

    The above example defines a record with the name “Employee” with three fields.

    To define an error, simply use the keyword error instead of record. For example:

    error Kaboom {
      string explanation;
      int result_code = -1;
    }
    

    Each field in a record or error consists of a type and a name, optional property annotations and an optional default value.

    A type reference in Avro IDL must be one of:

    • A primitive type
    • A logical type
    • A named schema defined prior to this usage in the same Protocol
    • A complex type (array, map, or union)

    Primitive Types

    The primitive types supported by Avro IDL are the same as those supported by Avro’s JSON format. This list includes int, long, string, boolean, float, double, null, and bytes.

    Logical Types

    Some of the logical types supported by Avro’s JSON format are also supported by Avro IDL. The currently supported types are:

    For example:

    record Job {
      string jobid;
      date submitDate;
      time_ms submitTime;
      timestamp_ms finishTime;
      decimal(9,2) finishRatio;
    }
    

    Logical types can also be specified via an annotation, which is useful for logical types for which a keyword does not exist:

    record Job {
      string jobid;
      @logicalType("timestamp-micros")
      long finishTime;
    }
    

    References to Named Schemata

    If a named schema has already been defined in the same Avro IDL file, it may be referenced by name as if it were a primitive type:

    record Card {
      Suit suit; // refers to the enum Card defined above
      int number;
    }
    

    Default Values

    Default values for fields may be optionally specified by using an equals sign after the field name followed by a JSON expression indicating the default value. This JSON is interpreted as described in the spec.

    Complex Types

    Arrays

    Array types are written in a manner that will seem familiar to C++ or Java programmers. An array of any type t is denoted array<t>. For example, an array of strings is denoted array<string>, and a multidimensional array of Foo records would be array<array<Foo>>.

    Maps

    Map types are written similarly to array types. An array that contains values of type t is written map<t>. As in the JSON schema format, all maps contain string-type keys.

    Unions

    Union types are denoted as union { typeA, typeB, typeC, ... }. For example, this record contains a string field that is optional (unioned with null), and a field containing either a precise or a imprecise number:

    record RecordWithUnion {
      union { null, string } optionalString;
      union { decimal(12, 6), float } number;
    }
    

    Note that the same restrictions apply to Avro IDL unions as apply to unions defined in the JSON format; namely, a record may not contain multiple elements of the same type. Also, fields/parameters that use the union type and have a default parameter must specify a default value of the same type as the first union type.

    Because it occurs so often, there is a special shorthand to denote a union of null with another type. In the following snippet, the first three fields have identical types:

    record RecordWithUnion {
      union { null, string } optionalString1 = null;
      string? optionalString2 = null;
      string? optionalString3; // No default value
      string? optionalString4 = "something";
    }
    

    Note that unlike explicit unions, the position of the null type is fluid; it will be the first or last type depending on the default value (if any). So in the example above, all fields are valid.

    Defining RPC Messages

    The syntax to define an RPC message within a Avro IDL protocol is similar to the syntax for a method declaration within a C header file or a Java interface. To define an RPC message add which takes two arguments named foo and bar, returning an int, simply include the following definition within the protocol:

    int add(int foo, int bar = 0);
    

    Message arguments, like record fields, may specify default values.

    To define a message with no response, you may use the alias void, equivalent to the Avro null type:

    void logMessage(string message);
    

    If you have previously defined an error type within the same protocol, you may declare that a message can throw this error using the syntax:

    void goKaboom() throws Kaboom;
    

    To define a one-way message, use the keyword oneway after the parameter list, for example:

    void fireAndForget(string message) oneway;
    

    Other Language Features

    Comments

    All Java-style comments are supported within a Avro IDL file. Any text following // on a line is ignored, as is any text between /* and */, possibly spanning multiple lines.

    Comments that begin with /** are used as the documentation string for the type or field definition that follows the comment.

    Escaping Identifiers

    Occasionally, one will need to use a reserved language keyword as an identifier. In order to do so, backticks (`) may be used to escape the identifier. For example, to define a message with the literal name error, you may write:

    void `error`();
    

    This syntax is allowed anywhere an identifier is expected.

    Annotations for Ordering and Namespaces

    Java-style annotations may be used to add additional properties to types and fields throughout Avro IDL.

    For example, to specify the sort order of a field within a record, one may use the @order annotation before the field name as follows:

    record MyRecord {
      string @order("ascending") myAscendingSortField;
      string @order("descending")  myDescendingField;
      string @order("ignore") myIgnoredField;
    }
    

    A field’s type (with the exception of type references) may also be preceded by annotations, e.g.:

    record MyRecord {
      @java-class("java.util.ArrayList") array<string> myStrings;
    }
    

    This can be used to support java classes that can be serialized/deserialized via their toString/String constructor, e.g.:

    record MyRecord {
      @java-class("java.math.BigDecimal") string value;
      @java-key-class("java.io.File") map<string> fileStates;
      array<@java-class("java.math.BigDecimal") string> weights;
    }
    

    Similarly, a @namespace annotation may be used to modify the namespace when defining a named schema. For example:

    @namespace("org.apache.avro.firstNamespace")
    protocol MyProto {
      @namespace("org.apache.avro.someOtherNamespace")
      record Foo {}
    
      record Bar {}
    }
    

    will define a protocol in the firstNamespace namespace. The record Foo will be defined in someOtherNamespace and Bar will be defined in firstNamespace as it inherits its default from its container.

    Type and field aliases are specified with the @aliases annotation as follows:

    @aliases(["org.old.OldRecord", "org.ancient.AncientRecord"])
    record MyRecord {
      string @aliases(["oldField", "ancientField"]) myNewField;
    }
    

    Some annotations like those listed above are handled specially. All other annotations are added as properties to the protocol, message, schema or field.

    Complete Example

    The following is an example of an Avro IDL file that shows most of the above features:

    /*
    * Header with license information.
    */
    
    /**
     * An example protocol in Avro IDL
     */
    @namespace("org.apache.avro.test")
    protocol Simple {
      /** Documentation for the enum type Kind */
      @aliases(["org.foo.KindOf"])
      enum Kind {
        FOO,
        BAR, // the bar enum value
        BAZ
      } = FOO; // For schema evolution purposes, unmatched values do not throw an error, but are resolved to FOO.
    
      /** MD5 hash; good enough to avoid most collisions, and smaller than (for example) SHA256. */
      fixed MD5(16);
    
      record TestRecord {
        /** Record name; has no intrinsic order */
        string @order("ignore") name;
    
        Kind @order("descending") kind;
    
        MD5 hash;
    
        /*
        Note that 'null' is the first union type. Just like .avsc / .avpr files, the default value must be of the first union type.
        */
        union { null, MD5 } /** Optional field */ @aliases(["hash"]) nullableHash = null;
    
        array<long> arrayOfLongs;
      }
    
      /** Errors are records that can be thrown from a method */
      error TestError {
        string message;
      }
    
      string hello(string greeting);
      /** Return what was given. Demonstrates the use of backticks to name types/fields/messages/parameters after keywords */
      TestRecord echo(TestRecord `record`);
      int add(int arg1, int arg2);
      bytes echoBytes(bytes data);
      void `error`() throws TestError;
      // The oneway keyword forces the method to return null.
      void ping() oneway;
    }
    

    Additional examples may be found in the Avro source tree under the src/test/idl/input directory.

    IDE support

    There are several editors and IDEs that support Avro IDL files, usually via plugins.

    JetBrains

    Apache Avro IDL Schema Support 203.1.2 was released in 9 December 2021.

    Features:

    • Syntax Highlighting
    • Code Completion
    • Code Formatting
    • Error Highlighting
    • Inspections & quick fixes
    • JSON schemas for .avpr and .avsc files

    It’s available via the JetBrains Marketplace and on GitHub.

    The plugin supports almost the all JetBrains products: IntelliJ IDEA, PyCharm, WebStorm, Android Studio, AppCode, GoLand, Rider, CLion, RubyMine, PhpStorm, DataGrip, DataSpell, MPS, Code With Me Guest and JetBrains Client.

    Only JetBrains Gateway does not support this plugin directly. But the backend (JetBrains) IDE that it connects to does.

    Eclipse

    Avroclipse 0.0.11 was released on 4 December 2019.

    Features:

    • Syntax Highlighting
    • Error Highlighting
    • Code Completion

    It is available on the Eclipse Marketplace and GitHub.

    Visual Studio Code

    avro-idl 0.5.0 was released on 16 June 2021. It provides syntax highlighting.

    It is available on the VisualStudio Marketplace and GitHub

    Atom.io

    atom-language-avro 0.0.13 was released on 14 August 2015. It provides syntax highlighting.

    It is available as Atom.io package and GitHub

    Vim

    A .avdl detecting plugin by Gurpreet Atwal on GitHub (Last change in December 2016)

    avro-idl.vim in the Avro repository share/editors directory (last change in September 2010)

    Both provide syntax highlighting.