- Encodes and decodes protobuf messages
- Generates AssemblyScript files using
protoc
plugin - Produces relatively small
.wasm
files - Relatively fast, especially for messages that contains only primitive types
This package requires Node 10.4+ or modern browser with WebAssembly support.
Requires protoc
installed for code generation.
# with npm
npm install --save as-proto
npm install --save-dev as-proto-gen
# with yarn
yarn add as-proto
yarn add --dev as-proto-gen
To generate AssemblyScript file from .proto
file, use following command:
protoc --plugin=protoc-gen-as=./node_modules/.bin/as-proto-gen --as_out=. ./file.proto
This command will create ./file.ts
file from ./file.proto
file.
Generated code example:
// star-repo-message.proto
syntax = "proto3";
message StarRepoMessage {
string author = 1;
string repo = 2;
}
// star-repo-message.ts
// Code generated by protoc-gen-as. DO NOT EDIT.
// Versions:
// protoc-gen-as v0.2.5
// protoc v3.21.4
import { Writer, Reader } from "as-proto/assembly";
export class StarRepoMessage {
static encode(message: StarRepoMessage, writer: Writer): void {
writer.uint32(10);
writer.string(message.author);
writer.uint32(18);
writer.string(message.repo);
}
static decode(reader: Reader, length: i32): StarRepoMessage {
const end: usize = length < 0 ? reader.end : reader.ptr + length;
const message = new StarRepoMessage();
while (reader.ptr < end) {
const tag = reader.uint32();
switch (tag >>> 3) {
case 1:
message.author = reader.string();
break;
case 2:
message.repo = reader.string();
break;
default:
reader.skipType(tag & 7);
break;
}
}
return message;
}
author: string;
repo: string;
constructor(author: string = "", repo: string = "") {
this.author = author;
this.repo = repo;
}
}
In order to generate helper methods for encoding and decoding a message, pass the gen-helper-methods
option with the as_opt
parameter:
protoc --plugin=protoc-gen-as=./node_modules/.bin/as-proto-gen --as_opt=gen-helper-methods --as_out=. ./file.proto
This will add the following methods in a generated file:
export function encodeStarRepoMessage(message: StarRepoMessage): Uint8Array {
return Protobuf.encode(message, StarRepoMessage.encode);
}
export function decodeStarRepoMessage(buffer: Uint8Array): StarRepoMessage {
return Protobuf.decode<StarRepoMessage>(buffer, StarRepoMessage.decode);
}
This package will generate messages for all proto dependencies (for example import "google/protobuf/timestamp.proto";
)
unless you pass --as_opt=no-gen-dependencies
option.
To encode and decode protobuf messages, all you need is Protobuf
class and
generated message class:
import { Protobuf } from 'as-proto/assembly';
import { StarRepoMessage } from './star-repo-message'; // generated file
const message = new StarRepoMessage('piotr-oles', 'as-proto');
// encode
const encoded = Protobuf.encode(message, StarRepoMessage.encode);
assert(encoded instanceof Uint8Array);
// decode
const decoded = Protobuf.decode(encoded, StarRepoMessage.decode);
assert(decoded instanceof StarRepoMessage);
assert(decoded.author === 'piotr-oles');
assert(decoded.repo === 'as-proto');
If the helper methods were generated, they can be used to reduce boilerplate code:
import {
StarRepoMessage,
encodeStarRepoMessage,
decodeStarRepoMessage
} from './star-repo-message'; // generated file
const message = new StarRepoMessage('piotr-oles', 'as-proto');
const encoded = encodeStarRepoMessage(message);
const decoded = decodeStarRepoMessage(encoded);
Currently, the package doesn't support GRPC definitions - only basic Protobuf messages.
I used performance benchmark from ts-proto
library and added case for as-proto
.
The results on Intel Core i7 2.2 Ghz (MacBook Pro 2015):
benchmarking encoding performance ...
as-proto x 1,295,297 ops/sec ±0.30% (92 runs sampled)
protobuf.js (reflect) x 589,073 ops/sec ±0.27% (88 runs sampled)
protobuf.js (static) x 589,866 ops/sec ±1.66% (89 runs sampled)
JSON (string) x 379,723 ops/sec ±0.30% (95 runs sampled)
JSON (buffer) x 295,340 ops/sec ±0.26% (93 runs sampled)
google-protobuf x 338,984 ops/sec ±1.25% (84 runs sampled)
as-proto was fastest
protobuf.js (reflect) was 54.5% ops/sec slower (factor 2.2)
protobuf.js (static) was 55.1% ops/sec slower (factor 2.2)
JSON (string) was 70.7% ops/sec slower (factor 3.4)
google-protobuf was 74.1% ops/sec slower (factor 3.9)
JSON (buffer) was 77.2% ops/sec slower (factor 4.4)
benchmarking decoding performance ...
as-proto x 889,283 ops/sec ±0.51% (94 runs sampled)
protobuf.js (reflect) x 1,308,310 ops/sec ±0.24% (95 runs sampled)
protobuf.js (static) x 1,375,425 ops/sec ±2.86% (92 runs sampled)
JSON (string) x 387,722 ops/sec ±0.56% (95 runs sampled)
JSON (buffer) x 345,785 ops/sec ±0.33% (94 runs sampled)
google-protobuf x 359,038 ops/sec ±0.32% (94 runs sampled)
protobuf.js (static) was fastest
protobuf.js (reflect) was 2.4% ops/sec slower (factor 1.0)
as-proto was 33.8% ops/sec slower (factor 1.5)
JSON (string) was 71.2% ops/sec slower (factor 3.5)
google-protobuf was 73.2% ops/sec slower (factor 3.7)
JSON (buffer) was 74.2% ops/sec slower (factor 3.9)
benchmarking combined performance ...
as-proto x 548,291 ops/sec ±0.41% (96 runs sampled)
protobuf.js (reflect) x 421,963 ops/sec ±1.41% (89 runs sampled)
protobuf.js (static) x 439,242 ops/sec ±0.85% (96 runs sampled)
JSON (string) x 186,513 ops/sec ±0.25% (94 runs sampled)
JSON (buffer) x 153,775 ops/sec ±0.54% (94 runs sampled)
google-protobuf x 160,281 ops/sec ±0.46% (91 runs sampled)
as-proto was fastest
protobuf.js (static) was 20.2% ops/sec slower (factor 1.3)
protobuf.js (reflect) was 23.8% ops/sec slower (factor 1.3)
JSON (string) was 65.9% ops/sec slower (factor 2.9)
google-protobuf was 70.8% ops/sec slower (factor 3.4)
JSON (buffer) was 72.0% ops/sec slower (factor 3.6)
The library is slower on decoding mostly because of GC - AssemblyScript provides very simple (and small) GC
which is not as good as V8 GC. The as-proto
beats JavaScript on decoding when messages contain
only primitive values or other messages (no strings and arrays).
MIT