Protocol Buffers Support in Chapel¶
This document describes a Google Protocol Buffers implementation for Chapel. Protocol Buffers is a language-neutral, platform-neutral, extensible mechanism for serializing structured data. The protocol buffer language is a language for specifying the schema for structured data. This schema is compiled into language specific bindings.
This project is comprised of two components:
Code generator: The
protoc-gen-chpl
tool is a compiler plugin toprotoc
, the protocol buffer compiler. It enables theprotoc
compiler to generate Chapel code.Chapel library: A module that has the runtime implementation of protobufs in Chapel and provides functionality to serialize messages in wire format.
Installation Instructions¶
You should have the protocol buffer compiler, v3.0.0
or higher, installed on your system.
Please see the official installation guide.
Once you have the compiler installed, in $CHPL_HOME
run the following:
make protoc-gen-chpl
It builds the protoc-gen-chpl
binary so that the command line interface can be used.
This installs protoc-gen-chpl
in the same place as the chapel compiler (chpl
) so that
it can be used anywhere in the user’s file system.
To remove protobuf support, change directory to $CHPL_HOME/tools/protoc-gen-chpl
and run:
make clean
Defining protocol format¶
To make use of the Chapel protobuf implementation you need to start by defining
a .proto
file. The definitions in a .proto
file contain a message for each
data structure you want to serialize, then specify a name and a type for each
field in the message.
Below is an example of an addressbook
for a person. This section describes a
simple .proto
file and the corresponding generated chapel code. For complete
details on .proto
files see the links at the end of this document.
Note
The Chapel implementation only supports the proto3 syntax of protobuf.
The .proto
file starts with an optional package declaration, which helps to prevent
naming conflicts between different projects.
syntax = "proto3";
package addressbook;
In Chapel the generated records will be placed in a module matching the package
name. If the package
name is not specified the module takes the name of the
proto file with all non-alphanumeric characters replaced by an underscore
.
Next, you have to define your messages. A message is just an aggregate containing a set of typed fields. Many standard simple data types are available as field types, including int64, int32, float, double, and string.
message Person {
string name = 1;
int32 id = 2; // Unique ID number for this person.
string email = 3;
enum PhoneType {
MOBILE = 0;
HOME = 1;
WORK = 2;
}
message PhoneNumber {
string number = 1;
PhoneType phntype = 2;
}
repeated PhoneNumber phones = 4;
}
In the above example the Person
message contains a string
typed name
field with field number 1
, a int32
typed id
field with field number
2
as well as a string
typed email
field with field number 3
. You
can also define enum types if you want one of your fields to have one of a
predefined list of values - here you want to specify that a phone type can be
one of MOBILE, HOME, or WORK. You can also define nested messages and use these
as field types, like the PhoneNumber
message containing a string
typed
number
field with field number 1
and a phntype
enum field with field
number 2
. The phones
field with field number 4
is an example of a repeated message
field. If a field is repeated, the field may be repeated any number of times
(including zero). The order of the repeated values will be preserved in the protocol
buffer. If a field is not set, a default value is assigned to the field by Chapel.
Compiling your protocol buffers¶
The code generator is integrated with the protoc compiler toolchain
included in the default Protocol Buffers distribution. Use the protoc
command
with the --chpl_out
flag to invoke the Chapel code generator and write the
output chpl
file to a specific location.
protoc --chpl_out=$DST_DIR $SRC_DIR/addressbook.proto
This generates addressbook.chpl
in your specified directory.
The generated file¶
The generated addressbook.chpl
file will contain:
A wrapper module with the name
addressbook
.Person
record withname
,id
,email
andphones
fields.Person_PhoneNumber
record withnumber
andphntype
fields.An enum with the name
Person_PhoneType
.serialize
anddeserialize
functions for serialization/parsing.
You can import this module to a chpl
file and can create an instance of Person
for populating data;
use addressbook;
use IO;
var messageObj: Person;
messageObj.name = "John";
messageObj.id = 429496729;
messageObj.email = "John@a.com";
var phoneNumber1: Person_PhoneNumber;
phoneNumber1.number = "555-4321";
phoneNumber1.phntype = Person_PhoneType.HOME;
messageObj.phones.append(phoneNumber1);
var phoneNumber2: Person_PhoneNumber;
phoneNumber2.number = "555-4444";
phoneNumber2.phntype = Person_PhoneType.WORK;
messageObj.phones.append(phoneNumber2);
Serialization and parsing¶
The whole purpose of using protocol buffers is to serialize your data so that it
can be parsed elsewhere. You can serialize your message object using the
IO
module and the serialize
function.
var file = open("out", iomode.cw);
var writingChannel = file.writer();
messageObj.serialize(writingChannel);
Parsing is also similar, each generated record has a deserialize
function. So to parse the file we have just created we can use:
use addressbook;
use IO;
var file = open("out", iomode.r);
var readingChannel = file.reader();
var messageObj = new Person();
messageObj.deserialize(readingChannel);
Features¶
The following features are currently supported