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Returned built-in Aquamarine calls, updated docs (#11)

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CONTRIBUTING.md Normal file
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## Contribute Code
You are welcome to contribute to Fluence.
Things you need to know:
1. You need to **agree to the Contributors License Agreement**. This is a common practice in all major Open Source projects. At the current moment we are unable to accept contributions made on behalf of a company. Only individual contributions will be accepted.
2. **Not all proposed contributions can be accepted**. Some features may e.g. just fit a third-party add-on better. The contribution must fit the overall direction of Fluence and really improve it. The more effort you invest, the better you should clarify in advance whether the contribution fits: the best way would be to just open an issue to discuss the contribution you plan to make.
### Contributor License Agreement
When you contribute, you have to be aware that your contribution is covered by **Apache License 2.0**, but might relicensed under few other software licenses mentioned in the **Contributor License Agreement**.
In particular you need to agree to the [Contributor License Agreement](https://gist.github.com/fluencelabs-org/3f4cbb3cc14c1c0fb9ad99d8f7316ed7). If you agree to its content, you simply have to click on the link posted by the CLA assistant as a comment to the pull request. Click it to check the CLA, then accept it on the following screen if you agree to it. CLA assistant will save this decision for upcoming contributions and will notify you if there is any change to the CLA in the meantime.

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# Fluence browser client
# Fluence JS SDK
[![npm version](https://badge.fury.io/js/%40fluencelabs%2Ffluence.svg)](https://badge.fury.io/js/%40fluencelabs%2Ffluence)
[![npm](https://img.shields.io/npm/v/@fluencelabs/fluence)](https://www.npmjs.com/package/@fluencelabs/fluence)
Browser client for the Fluence network based on the js-libp2p.
Official SDK for building web-based applications for Fluence
## How to build
## About Fluence
With `npm` installed building could be done as follows:
Fluence is an open application platform where apps can build on each other, share data and users
| Layer | Tech | Scale | State | Based on |
| :-------------------: | :-------------------------------------------------------------------------------------------------------------------------------: | :------------------------------: | :-------------------------------: | :-----------------------------------------------------------------------------------------------------------: |
| Execution | [FCE](https://github.com/fluencelabs/fce) | Single peer | Disk, network, external processes | Wasm, [IT](https://github.com/fluencelabs/interface-types), [Wasmer\*](https://github.com/fluencelabs/wasmer) |
| Composition | [Aquamarine](https://github.com/fluencelabs/aquamarine) | Involved peers | Results and signatures | ⇅, π-calculus |
| Topology | [TrustGraph](https://github.com/fluencelabs/fluence/tree/master/trust-graph), [DHT\*](https://github.com/fluencelabs/rust-libp2p) | Distributed with Kademlia\* algo | Actual state of the network | [libp2p](https://github.com/libp2p/rust-libp2p) |
| Security & Accounting | Blockchain | Whole network | Licenses & payments | substrate? |
<img alt="aquamarine scheme" align="center" src="doc/stack.png"/>
## Installation
With npm
```bash
npm install fluence
npm install @fluencelabs/fluence
```
## Example
With yarn
Shows how to register and call new service in Fluence network.
Generate new peer ids for clients.
```typescript
let peerId1 = await Fluence.generatePeerId();
let peerId2 = await Fluence.generatePeerId();
```bash
yarn add @fluencelabs/fluence
```
Establish connections to predefined nodes.
## Getting started
Pick a node to connect to the Fluence network. The easiest way to do so is by using [fluence-network-environment](https://github.com/fluencelabs/fluence-network-environment) package
```typescript
let client1 = await Fluence.connect("/dns4/134.209.186.43/tcp/9003/ws/p2p/12D3KooWBUJifCTgaxAUrcM9JysqCcS4CS8tiYH5hExbdWCAoNwb", peerId1);
let client2 = await Fluence.connect("/ip4/134.209.186.43/tcp/9002/ws/p2p/12D3KooWHk9BjDQBUqnavciRPhAYFvqKBe4ZiPPvde7vDaqgn5er", peerId2);
import { dev } from '@fluencelabs/fluence-network-environment';
export const relayNode = dev[0];
```
Initialize client
```typescript
import { createClient, FluenceClient } from '@fluencelabs/fluence';
const client = await createClient(relayNode);
```
Add response service function calls
```typescript
subscribeToEvent(client, 'helloService', 'helloFunction', (args) => {
const [networkInfo] = args;
console.log(networkInfo);
});
```
Make a particle
```typescript
const particle = new Particle(`
(seq
(call myRelay ("op" "identify") [] result)
(call %init_peer_id% ("helloService" "helloFunction") [result])
)`,
{
myRelay: client.relayPeerId,
},
);
```
Send it to the network
```typescript
await sendParticle(client, particle);
```
Observe the result in browser console
```json
{
"external_addresses": [ "/ip4/1.2.3.4/tcp/7777", "/dns4/dev.fluence.dev/tcp/19002" ]
}
```
## Documentation
SDK Reference: [readme.io](https://fluence-labs.readme.io/docs/js-sdk)
Detailed guide on building applications: [readme.io](https://fluence-labs.readme.io/docs/build-an-app)
Sample applications:
* [FluentPad](https://github.com/fluencelabs/fluent-pad): a collaborative text editor with users online status synchronization
* [Other demos](https://github.com/fluencelabs/aqua-demo): (Chat app, Social feed app, Blog platform app)
About [Fluence](https://fluence.network/)
## Developing
### Setting up Dev
Install node packages
```bash
npm install
```
### Running tests
To run test execute
```bash
npm test
```
## Contributing
While the project is a still in the early stage of development, you are welcome to track progress and contribute. At the current moment we don't have detailed instructions on how to join development or which code guidelines to follow. However, you can expect more info to appear soon enough. In the meanwhile, check out the [basic contributing rules](CONTRIBUTING.md).
## License
[Apache 2.0](LICENSE)

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{
"name": "@fluencelabs/fluence",
"version": "0.8.0",
"version": "0.9.2",
"lockfileVersion": 1,
"requires": true,
"dependencies": {
@ -25,9 +25,9 @@
}
},
"@fluencelabs/aquamarine-stepper": {
"version": "0.0.30",
"resolved": "https://registry.npmjs.org/@fluencelabs/aquamarine-stepper/-/aquamarine-stepper-0.0.30.tgz",
"integrity": "sha512-XIgRgyVgPJXvXB3NuYHpSdJ0EFcFZ+K4uduGFf8PfnFii/bFs4F1n3MBB+b4D0y59HR4F9ZQUC4fXxcf6UCYWA=="
"version": "0.3.4",
"resolved": "https://registry.npmjs.org/@fluencelabs/aquamarine-stepper/-/aquamarine-stepper-0.3.4.tgz",
"integrity": "sha512-0NPg9dWvANtc3If8C8O8XjKwzMCq2492lA73faKJdCwUv7m+xHX9G3l6UJULTfV1T4mWVtMQZIKopNOlRYSrKA=="
},
"@sinonjs/commons": {
"version": "1.7.2",

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{
"name": "@fluencelabs/fluence",
"version": "0.9.0",
"version": "0.9.3",
"description": "JS SDK for the Fluence network",
"main": "./dist/index.js",
"typings": "./dist/index.d.ts",
@ -13,7 +13,7 @@
"author": "Fluence Labs",
"license": "Apache-2.0",
"dependencies": {
"@fluencelabs/aquamarine-stepper": "0.0.30",
"@fluencelabs/aquamarine-stepper": "0.3.4",
"async": "3.2.0",
"base64-js": "1.3.1",
"bs58": "4.0.1",

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src/FluenceClient.ts
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@ -14,239 +14,22 @@
* limitations under the License.
*/
import log from 'loglevel';
import PeerId from 'peer-id';
import { SecurityTetraplet, StepperOutcome } from './internal/commonTypes';
import { FluenceClientBase } from './internal/FluenceClientBase';
import { build, genUUID, ParticleDto } from './internal/particle';
import { ParticleProcessor } from './internal/ParticleProcessor';
import { ParticleProcessorStrategy } from './internal/ParticleProcessorStrategy';
import { PeerIdB58 } from './internal/commonTypes';
import Multiaddr from 'multiaddr';
const fetchCallbackServiceName = '__callback';
const selfRelayVarName = '__relay';
export interface FluenceClient {
readonly relayPeerId: PeerIdB58;
readonly selfPeerId: PeerIdB58;
readonly isConnected: boolean;
const wrapRelayBasedCall = (script: string) => {
return `
(seq
(call ${selfRelayVarName} ("op" "identity") [])
${script}
)
`;
};
disconnect(): Promise<void>;
const wrapFetchCall = (script: string, particleId: string, resultArgNames: string[]) => {
// TODO: sanitize
const resultTogether = resultArgNames.join(' ');
let res = `
(seq
${script}
(seq
(call ${selfRelayVarName} ("op" "identity") [])
(call %init_peer_id% ("${fetchCallbackServiceName}" "${particleId}") [${resultTogether}])
)
)`;
return wrapRelayBasedCall(res);
};
/**
* Establish a connection to the node. If the connection is already established, disconnect and reregister all services in a new connection.
*
* @param multiaddr
*/
connect(multiaddr: string | Multiaddr): Promise<void>;
export interface FluenceEvent {
type: string;
args: any[];
}
export type FluenceEventHandler = (event: FluenceEvent) => void;
export class FluenceClient extends FluenceClientBase {
private eventSubscribers: Map<string, FluenceEventHandler[]> = new Map();
private eventValidators: Map<string, Function> = new Map();
private callbacks: Map<string, Function> = new Map();
private fetchParticles: Map<string, { resolve: Function; reject: Function }> = new Map();
constructor(selfPeerId: PeerId) {
super(selfPeerId);
this.processor = new ParticleProcessor(this.strategy, selfPeerId);
}
async fetch<T>(script: string, resultArgNames: string[], data?: Map<string, any>, ttl?: number): Promise<T> {
data = this.addRelayToArgs(data);
const callBackId = genUUID();
script = wrapFetchCall(script, callBackId, resultArgNames);
const particle = await build(this.selfPeerIdFull, script, data, ttl, callBackId);
return new Promise<T>((resolve, reject) => {
this.fetchParticles.set(callBackId, { resolve, reject });
this.processor.executeLocalParticle(particle);
});
}
// TODO:: better naming probably?
async fireAndForget(script: string, data?: Map<string, any>, ttl?: number) {
data = this.addRelayToArgs(data);
script = wrapRelayBasedCall(script);
await this.sendScript(script, data, ttl);
}
registerEvent(
channel: string,
eventName: string,
validate?: (channel: string, eventName: string, args: any[], tetraplets: any[][]) => boolean,
) {
if (!validate) {
validate = (c, e, a, t) => true;
}
this.eventValidators.set(`${channel}/${eventName}`, validate);
}
unregisterEvent(channel: string, eventName: string) {
this.eventValidators.delete(`${channel}/${eventName}`);
}
registerCallback(
serviceId: string,
fnName: string,
callback: (args: any[], tetraplets: SecurityTetraplet[][]) => object,
) {
this.callbacks.set(`${serviceId}/${fnName}`, callback);
}
unregisterCallback(channel: string, eventName: string) {
this.eventValidators.delete(`${channel}/${eventName}`);
}
subscribe(channel: string, handler: FluenceEventHandler) {
if (!this.eventSubscribers.get(channel)) {
this.eventSubscribers.set(channel, []);
}
this.eventSubscribers.get(channel).push(handler);
}
protected strategy: ParticleProcessorStrategy = {
particleHandler: (serviceId: string, fnName: string, args: any[], tetraplets: SecurityTetraplet[][]) => {
// missing built-in op
if (serviceId === 'op' && fnName === 'identity') {
return {
ret_code: 0,
result: JSON.stringify(args),
};
}
// async fetch model handling
if (serviceId === fetchCallbackServiceName) {
const executingParticlePromiseFns = this.fetchParticles.get(fnName);
if (executingParticlePromiseFns) {
// don't block
setImmediate(() => {
this.fetchParticles.delete(fnName);
executingParticlePromiseFns.resolve(args);
});
}
return {
ret_code: 0,
result: JSON.stringify({}),
};
}
// event model handling
const eventPair = `${serviceId}/${fnName}`;
const eventValidator = this.eventValidators.get(eventPair);
if (eventValidator) {
try {
if (!eventValidator(serviceId, fnName, args, tetraplets)) {
return {
ret_code: 1, // TODO:: error codes
result: 'validation failed',
};
}
} catch (e) {
log.error('error running validation function: ' + e);
return {
ret_code: 1, // TODO:: error codes
result: 'validation failed',
};
}
// don't block
setImmediate(() => {
this.pushEvent(serviceId, {
type: fnName,
args: args,
});
});
return {
ret_code: 0,
result: JSON.stringify({}),
};
}
// callback model handling
const callback = this.callbacks.get(eventPair);
if (callback) {
try {
const res = callback(args, tetraplets);
return {
ret_code: 0,
result: JSON.stringify(res),
};
} catch (e) {
return {
ret_code: 1, // TODO:: error codes
result: JSON.stringify(e),
};
}
}
return {
ret_code: 1,
result: `Error. There is no service: ${serviceId}`,
};
},
sendParticleFurther: async (particle: ParticleDto) => {
try {
await this.connection.sendParticle(particle);
} catch (reason) {
log.error(`Error on sending particle with id ${particle.id}: ${reason}`);
}
},
onParticleTimeout: (particle: ParticleDto, now: number) => {
log.info(`Particle expired. Now: ${now}, ttl: ${particle.ttl}, ts: ${particle.timestamp}`);
const executingParticle = this.fetchParticles.get(particle.id);
if (executingParticle) {
executingParticle.reject(new Error(`particle ${particle.id} timed out`));
}
},
onLocalParticleRecieved: (particle: ParticleDto) => {},
onExternalParticleRecieved: (particle: ParticleDto) => {},
onStepperExecuting: (particle: ParticleDto) => {},
onStepperExecuted: (stepperOutcome: StepperOutcome) => {
log.info('inner interpreter outcome:');
log.info(stepperOutcome);
},
};
private pushEvent(channel: string, event: FluenceEvent) {
const subs = this.eventSubscribers.get(channel);
if (subs) {
for (let sub of subs) {
sub(event);
}
}
}
private addRelayToArgs(data: Map<string, any>) {
if (data === undefined) {
data = new Map();
}
if (!data.has(selfRelayVarName)) {
data.set(selfRelayVarName, this.relayPeerId);
}
return data;
}
sendScript(script: string, data?: Map<string, any>, ttl?: number): Promise<string>;
}

88
src/__test__/client.spec.ts
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@ -6,11 +6,15 @@ import { certificateFromString, certificateToString, issue } from '../internal/t
import { TrustGraph } from '../internal/trust/trust_graph';
import { nodeRootCert } from '../internal/trust/misc';
import { generatePeerId, peerIdToSeed, seedToPeerId } from '../internal/peerIdUtils';
import { FluenceClient } from '../FluenceClient';
import { FluenceClientImpl } from '../internal/FluenceClientImpl';
import { createConnectedClient, createLocalClient } from './util';
import log from 'loglevel';
import { createClient } from '../api';
import Multiaddr from 'multiaddr';
import { getModules } from '../internal/builtins';
const devNodeAddress = '/dns4/dev.fluence.dev/tcp/19001/wss/p2p/12D3KooWEXNUbCXooUwHrHBbrmjsrpHXoEphPwbjQXEGyzbqKnE9';
const devNodePeerId = '12D3KooWEXNUbCXooUwHrHBbrmjsrpHXoEphPwbjQXEGyzbqKnE9';
describe('Typescript usage suite', () => {
it('should create private key from seed and back', async function () {
@ -49,7 +53,7 @@ describe('Typescript usage suite', () => {
describe.skip('should make connection to network', async function () {
this.timeout(30000);
const testProcedure = async (client: FluenceClient) => {
const testProcedure = async (client: FluenceClientImpl) => {
let resMakingPromise = new Promise((resolve) => {
client.registerCallback('test', 'test', (args, _) => {
resolve(args);
@ -75,11 +79,10 @@ describe('Typescript usage suite', () => {
it('address as string', async function () {
// arrange
const addr =
'/dns4/net01.fluence.dev/tcp/19001/wss/p2p/12D3KooWEXNUbCXooUwHrHBbrmjsrpHXoEphPwbjQXEGyzbqKnE9';
const addr = devNodeAddress;
// act
const client = await createClient(addr);
const client = (await createClient(addr)) as FluenceClientImpl;
// assert
const res = await testProcedure(client);
@ -88,12 +91,10 @@ describe('Typescript usage suite', () => {
it('address as multiaddr', async function () {
// arrange
const addr = new Multiaddr(
'/dns4/net01.fluence.dev/tcp/19001/wss/p2p/12D3KooWEXNUbCXooUwHrHBbrmjsrpHXoEphPwbjQXEGyzbqKnE9',
);
const addr = new Multiaddr(devNodeAddress);
// act
const client = await createClient(addr);
const client = (await createClient(addr)) as FluenceClientImpl;
// assert
const res = await testProcedure(client);
@ -103,13 +104,12 @@ describe('Typescript usage suite', () => {
it('address as node', async function () {
// arrange
const addr = {
multiaddr:
'/dns4/net01.fluence.dev/tcp/19001/wss/p2p/12D3KooWEXNUbCXooUwHrHBbrmjsrpHXoEphPwbjQXEGyzbqKnE9',
peerId: '12D3KooWEXNUbCXooUwHrHBbrmjsrpHXoEphPwbjQXEGyzbqKnE9',
multiaddr: devNodeAddress,
peerId: devNodePeerId,
};
// act
const client = await createClient(addr);
const client = (await createClient(addr)) as FluenceClientImpl;
// assert
const res = await testProcedure(client);
@ -118,26 +118,24 @@ describe('Typescript usage suite', () => {
it('peerid as peer id', async function () {
// arrange
const addr =
'/dns4/net01.fluence.dev/tcp/19001/wss/p2p/12D3KooWEXNUbCXooUwHrHBbrmjsrpHXoEphPwbjQXEGyzbqKnE9';
const addr = devNodeAddress;
const pid = await generatePeerId();
// act
const client = await createClient(addr, pid);
const client = (await createClient(addr, pid)) as FluenceClientImpl;
// assert
const res = await testProcedure(client);
expect(res).to.deep.equal(['world']);
});
it('peerid as see', async function () {
it('peerid as seed', async function () {
// arrange
const addr =
'/dns4/net01.fluence.dev/tcp/19001/wss/p2p/12D3KooWEXNUbCXooUwHrHBbrmjsrpHXoEphPwbjQXEGyzbqKnE9';
const addr = devNodeAddress;
const pid = peerIdToSeed(await generatePeerId());
// act
const client = await createClient(addr, pid);
const client = (await createClient(addr, pid)) as FluenceClientImpl;
// assert
const res = await testProcedure(client);
@ -148,9 +146,7 @@ describe('Typescript usage suite', () => {
it.skip('should make a call through the network', async function () {
this.timeout(30000);
// arrange
const client = await createConnectedClient(
'/dns4/net01.fluence.dev/tcp/19001/wss/p2p/12D3KooWEXNUbCXooUwHrHBbrmjsrpHXoEphPwbjQXEGyzbqKnE9',
);
const client = await createConnectedClient(devNodeAddress);
client.registerCallback('test', 'test', (args, _) => {
log.trace('should make a call through the network, called "test" "test" with args', args);
@ -191,9 +187,7 @@ describe('Typescript usage suite', () => {
it.skip('fireAndForget should work', async function () {
this.timeout(30000);
// arrange
const client = await createConnectedClient(
'/dns4/net01.fluence.dev/tcp/19001/wss/p2p/12D3KooWEXNUbCXooUwHrHBbrmjsrpHXoEphPwbjQXEGyzbqKnE9',
);
const client = await createConnectedClient(devNodeAddress);
let resMakingPromise = new Promise((resolve) => {
client.registerCallback('test', 'reverse_args', (args, _) => {
@ -220,13 +214,23 @@ describe('Typescript usage suite', () => {
expect(res).to.deep.equal(['some d', 'some c', 'some b', 'some a']);
});
it.skip('fetch should work', async function () {
it.skip('add_module', async function () {
this.timeout(30000);
// arrange
const client = await createConnectedClient(
'/dns4/net01.fluence.dev/tcp/19001/wss/p2p/12D3KooWEXNUbCXooUwHrHBbrmjsrpHXoEphPwbjQXEGyzbqKnE9',
'/dns4/dev.fluence.dev/tcp/19003/wss/p2p/12D3KooWBUJifCTgaxAUrcM9JysqCcS4CS8tiYH5hExbdWCAoNwb',
);
let a = await getModules(client);
expect(a).not.to.be.undefined;
});
it.skip('fetch should work', async function () {
this.timeout(30000);
// arrange
const client = await createConnectedClient(devNodeAddress);
// act
let script = `
(call "${client.relayPeerId}" ("op" "identify") [] result)
@ -243,16 +247,12 @@ describe('Typescript usage suite', () => {
it.skip('two clients should work inside the same time browser', async function () {
// arrange
const pid1 = await generatePeerId();
const client1 = new FluenceClient(pid1);
await client1.connect(
'/dns4/dev.fluence.dev/tcp/19001/wss/p2p/12D3KooWEXNUbCXooUwHrHBbrmjsrpHXoEphPwbjQXEGyzbqKnE9',
);
const client1 = new FluenceClientImpl(pid1);
await client1.connect(devNodeAddress);
const pid2 = await generatePeerId();
const client2 = new FluenceClient(pid2);
await client2.connect(
'/dns4/dev.fluence.dev/tcp/19001/wss/p2p/12D3KooWEXNUbCXooUwHrHBbrmjsrpHXoEphPwbjQXEGyzbqKnE9',
);
const client2 = new FluenceClientImpl(pid2);
await client2.connect(devNodeAddress);
let resMakingPromise = new Promise((resolve) => {
client2.registerCallback('test', 'test', (args, _) => {
@ -283,16 +283,12 @@ describe('Typescript usage suite', () => {
it.skip('event registration should work', async function () {
// arrange
const pid1 = await generatePeerId();
const client1 = new FluenceClient(pid1);
await client1.connect(
'/dns4/dev.fluence.dev/tcp/19001/wss/p2p/12D3KooWEXNUbCXooUwHrHBbrmjsrpHXoEphPwbjQXEGyzbqKnE9',
);
const client1 = new FluenceClientImpl(pid1);
await client1.connect(devNodeAddress);
const pid2 = await generatePeerId();
const client2 = new FluenceClient(pid2);
await client2.connect(
'/dns4/dev.fluence.dev/tcp/19001/wss/p2p/12D3KooWEXNUbCXooUwHrHBbrmjsrpHXoEphPwbjQXEGyzbqKnE9',
);
const client2 = new FluenceClientImpl(pid2);
await client2.connect(devNodeAddress);
client2.registerEvent('event_stream', 'test');
const resMakingPromise = new Promise((resolve) => {
@ -323,8 +319,8 @@ export async function testCerts() {
const key2 = await generatePeerId();
// connect to two different nodes
const cl1 = new FluenceClient(key1);
const cl2 = new FluenceClient(key2);
const cl1 = new FluenceClientImpl(key1);
const cl2 = new FluenceClientImpl(key2);
await cl1.connect('/dns4/134.209.186.43/tcp/9003/ws/p2p/12D3KooWBUJifCTgaxAUrcM9JysqCcS4CS8tiYH5hExbdWCAoNwb');
await cl2.connect('/ip4/134.209.186.43/tcp/9002/ws/p2p/12D3KooWHk9BjDQBUqnavciRPhAYFvqKBe4ZiPPvde7vDaqgn5er');

7
src/__test__/util.ts
View File

@ -1,15 +1,16 @@
import { FluenceClient, generatePeerId } from '..';
import { generatePeerId } from '..';
import { FluenceClientImpl } from '../internal/FluenceClientImpl';
export const createLocalClient = async () => {
const peerId = await generatePeerId();
const client = new FluenceClient(peerId);
const client = new FluenceClientImpl(peerId);
await client.local();
return client;
};
export const createConnectedClient = async (node: string) => {
const peerId = await generatePeerId();
const client = new FluenceClient(peerId);
const client = new FluenceClientImpl(peerId);
await client.connect(node);
return client;
};

48
src/api.ts
View File

@ -4,12 +4,19 @@ import { genUUID, Particle } from './internal/particle';
import Multiaddr from 'multiaddr';
import PeerId, { isPeerId } from 'peer-id';
import { generatePeerId, seedToPeerId } from './internal/peerIdUtils';
import { FluenceClientImpl } from './internal/FluenceClientImpl';
type Node = {
peerId: string;
multiaddr: string;
};
/**
* Creates a Fluence client. If the `connectTo` is specified connects the client to the network
* @param { string | Multiaddr | Node } [connectTo] - Node in Fluence network to connect to. If not specified client will not be connected to the n
* @param { PeerId | string } [peerIdOrSeed] - The Peer Id of the created client. Specified either as PeerId structure or as seed string. Will be generated randomly if not specified
* @returns { Promise<FluenceClient> } Promise which will be resolved with the created FluenceClient
*/
export const createClient = async (
connectTo?: string | Multiaddr | Node,
peerIdOrSeed?: PeerId | string,
@ -25,7 +32,7 @@ export const createClient = async (
peerId = await seedToPeerId(peerIdOrSeed);
}
const client = new FluenceClient(peerId);
const client = new FluenceClientImpl(peerId);
if (connectTo) {
let theAddress: Multiaddr;
@ -42,28 +49,55 @@ export const createClient = async (
return client;
};
/**
* Send a particle to Fluence Network using the specified Fluence Client.
* @param { FluenceClient } client - The Fluence Client instance.
* @param { Particle } particle - The particle to send.
*/
export const sendParticle = async (client: FluenceClient, particle: Particle): Promise<string> => {
return await client.sendScript(particle.script, particle.data, particle.ttl);
};
/**
* Registers a function which can be called on the client from Aquamarine. The registration is per client basis.
* @param { FluenceClient } client - The Fluence Client instance.
* @param { string } serviceId - The identifier of service which would be used to make calls from Aquamarine
* @param { string } fnName - The identifier of function which would be used to make calls from Aquamarine
* @param { (args: any[], tetraplets: SecurityTetraplet[][]) => object } handler - The handler which would be called by Aquamarine infrastructure. The result is any object passed back to Aquamarine
*/
export const registerServiceFunction = (
client: FluenceClient,
serviceId: string,
fnName: string,
handler: (args: any[], tetraplets: SecurityTetraplet[][]) => object,
) => {
client.registerCallback(serviceId, fnName, handler);
(client as FluenceClientImpl).registerCallback(serviceId, fnName, handler);
};
// prettier-ignore
/**
* Removes registers for the function previously registered with {@link registerServiceFunction}
* @param { FluenceClient } client - The Fluence Client instance.
* @param { string } serviceId - The identifier of service used in {@link registerServiceFunction} call
* @param { string } fnName - The identifier of function used in {@link registerServiceFunction} call
*/
export const unregisterServiceFunction = (
client: FluenceClient,
serviceId: string,
fnName: string
) => {
client.unregisterCallback(serviceId, fnName);
(client as FluenceClientImpl).unregisterCallback(serviceId, fnName);
};
/**
* Registers an event-like handler for all calls to the specific service\function pair from from Aquamarine. The registration is per client basis. Return a function which when called removes the subscription.
* Same as registerServiceFunction which immediately returns empty object.
* @param { FluenceClient } client - The Fluence Client instance.
* @param { string } serviceId - The identifier of service calls to which from Aquamarine are transformed into events.
* @param { string } fnName - The identifier of function calls to which from Aquamarine are transformed into events.
* @param { (args: any[], tetraplets: SecurityTetraplet[][]) => object } handler - The handler which would be called by Aquamarine infrastructure
* @returns { Function } - A function which when called removes the subscription.
*/
export const subscribeToEvent = (
client: FluenceClient,
serviceId: string,
@ -84,6 +118,14 @@ export const subscribeToEvent = (
};
};
/**
* Send a particle with a fetch-like semantics. In order to for this to work you have to you have to make a call to the same callbackServiceId\callbackFnName pair from Air script as specified by the parameters. The arguments of the call are returned as the resolve value of promise
* @param { FluenceClient } client - The Fluence Client instance.
* @param { Particle } particle - The particle to send.
* @param { string } callbackFnName - The identifier of function which should be used in Air script to pass the data to fetch "promise"
* @param { [string]='_callback' } callbackServiceId - The service identifier which should be used in Air script to pass the data to fetch "promise"
* @returns { Promise<T> } - A promise which would be resolved with the data returned from Aquamarine
*/
export const sendParticleAsFetch = async <T>(
client: FluenceClient,
particle: Particle,

1
src/index.ts
View File

@ -19,3 +19,4 @@ export { FluenceClient } from './FluenceClient';
export { SecurityTetraplet, PeerIdB58 } from './internal/commonTypes';
export * from './api';
export { Particle } from './internal/particle';
export * from './internal/builtins';

1
src/internal/FluenceClientBase.ts
View File

@ -21,7 +21,6 @@ import { FluenceConnection } from './FluenceConnection';
import { ParticleProcessor } from './ParticleProcessor';
import { ParticleProcessorStrategy } from './ParticleProcessorStrategy';
import log from 'loglevel';
import { PeerIdB58 } from './commonTypes';
export abstract class FluenceClientBase {

253
src/internal/FluenceClientImpl.ts Normal file
View File

@ -0,0 +1,253 @@
/*
* Copyright 2020 Fluence Labs Limited
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
import log from 'loglevel';
import PeerId from 'peer-id';
import { SecurityTetraplet, StepperOutcome } from './commonTypes';
import { FluenceClientBase } from './FluenceClientBase';
import { FluenceClient } from '../FluenceClient';
import { build, genUUID, ParticleDto } from './particle';
import { ParticleProcessor } from './ParticleProcessor';
import { ParticleProcessorStrategy } from './ParticleProcessorStrategy';
const fetchCallbackServiceName = '__callback';
const selfRelayVarName = '__relay';
const wrapRelayBasedCall = (script: string) => {
return `
(seq
(call ${selfRelayVarName} ("op" "identity") [])
${script}
)
`;
};
const wrapFetchCall = (script: string, particleId: string, resultArgNames: string[]) => {
// TODO: sanitize
const resultTogether = resultArgNames.join(' ');
let res = `
(seq
${script}
(seq
(call ${selfRelayVarName} ("op" "identity") [])
(call %init_peer_id% ("${fetchCallbackServiceName}" "${particleId}") [${resultTogether}])
)
)`;
return wrapRelayBasedCall(res);
};
export interface FluenceEvent {
type: string;
args: any[];
}
export type FluenceEventHandler = (event: FluenceEvent) => void;
export class FluenceClientImpl extends FluenceClientBase implements FluenceClient {
private eventSubscribers: Map<string, FluenceEventHandler[]> = new Map();
private eventValidators: Map<string, Function> = new Map();
private callbacks: Map<string, Function> = new Map();
private fetchParticles: Map<string, { resolve: Function; reject: Function }> = new Map();
constructor(selfPeerId: PeerId) {
super(selfPeerId);
this.processor = new ParticleProcessor(this.strategy, selfPeerId);
}
async fetch<T>(script: string, resultArgNames: string[], data?: Map<string, any>, ttl?: number): Promise<T> {
data = this.addRelayToArgs(data);
const callBackId = genUUID();
script = wrapFetchCall(script, callBackId, resultArgNames);
const particle = await build(this.selfPeerIdFull, script, data, ttl, callBackId);
return new Promise<T>((resolve, reject) => {
this.fetchParticles.set(callBackId, { resolve, reject });
this.processor.executeLocalParticle(particle);
});
}
// TODO:: better naming probably?
async fireAndForget(script: string, data?: Map<string, any>, ttl?: number) {
data = this.addRelayToArgs(data);
script = wrapRelayBasedCall(script);
await this.sendScript(script, data, ttl);
}
registerEvent(
channel: string,
eventName: string,
validate?: (channel: string, eventName: string, args: any[], tetraplets: any[][]) => boolean,
) {
if (!validate) {
validate = (c, e, a, t) => true;
}
this.eventValidators.set(`${channel}/${eventName}`, validate);
}
unregisterEvent(channel: string, eventName: string) {
this.eventValidators.delete(`${channel}/${eventName}`);
}
registerCallback(
serviceId: string,
fnName: string,
callback: (args: any[], tetraplets: SecurityTetraplet[][]) => object,
) {
this.callbacks.set(`${serviceId}/${fnName}`, callback);
}
unregisterCallback(channel: string, eventName: string) {
this.eventValidators.delete(`${channel}/${eventName}`);
}
subscribe(channel: string, handler: FluenceEventHandler) {
if (!this.eventSubscribers.get(channel)) {
this.eventSubscribers.set(channel, []);
}
this.eventSubscribers.get(channel).push(handler);
}
protected strategy: ParticleProcessorStrategy = {
particleHandler: (serviceId: string, fnName: string, args: any[], tetraplets: SecurityTetraplet[][]) => {
// missing built-in op
if (serviceId === 'op' && fnName === 'identity') {
return {
ret_code: 0,
result: JSON.stringify(args),
};
}
// async fetch model handling
if (serviceId === fetchCallbackServiceName) {
const executingParticlePromiseFns = this.fetchParticles.get(fnName);
if (executingParticlePromiseFns) {
// don't block
setImmediate(() => {
this.fetchParticles.delete(fnName);
executingParticlePromiseFns.resolve(args);
});
}
return {
ret_code: 0,
result: JSON.stringify({}),
};
}
// event model handling
const eventPair = `${serviceId}/${fnName}`;
const eventValidator = this.eventValidators.get(eventPair);
if (eventValidator) {
try {
if (!eventValidator(serviceId, fnName, args, tetraplets)) {
return {
ret_code: 1, // TODO:: error codes
result: 'validation failed',
};
}
} catch (e) {
log.error('error running validation function: ' + e);
return {
ret_code: 1, // TODO:: error codes
result: 'validation failed',
};
}
// don't block
setImmediate(() => {
this.pushEvent(serviceId, {
type: fnName,
args: args,
});
});
return {
ret_code: 0,
result: JSON.stringify({}),
};
}
// callback model handling
const callback = this.callbacks.get(eventPair);
if (callback) {
try {
const res = callback(args, tetraplets);
return {
ret_code: 0,
result: JSON.stringify(res),
};
} catch (e) {
return {
ret_code: 1, // TODO:: error codes
result: JSON.stringify(e),
};
}
}
return {
ret_code: 1,
result: `Error. There is no service: ${serviceId}`,
};
},
sendParticleFurther: async (particle: ParticleDto) => {
try {
await this.connection.sendParticle(particle);
} catch (reason) {
log.error(`Error on sending particle with id ${particle.id}: ${reason}`);
}
},
onParticleTimeout: (particle: ParticleDto, now: number) => {
log.info(`Particle expired. Now: ${now}, ttl: ${particle.ttl}, ts: ${particle.timestamp}`);
const executingParticle = this.fetchParticles.get(particle.id);
if (executingParticle) {
executingParticle.reject(new Error(`particle ${particle.id} timed out`));
}
},
onLocalParticleRecieved: (particle: ParticleDto) => {},
onExternalParticleRecieved: (particle: ParticleDto) => {},
onStepperExecuting: (particle: ParticleDto) => {},
onStepperExecuted: (stepperOutcome: StepperOutcome) => {
log.info('inner interpreter outcome:');
log.info(stepperOutcome);
},
};
private pushEvent(channel: string, event: FluenceEvent) {
const subs = this.eventSubscribers.get(channel);
if (subs) {
for (let sub of subs) {
sub(event);
}
}
}
private addRelayToArgs(data: Map<string, any>) {
if (data === undefined) {
data = new Map();
}
if (!data.has(selfRelayVarName)) {
data.set(selfRelayVarName, this.relayPeerId);
}
return data;
}
}

280
src/internal/builtins.ts Normal file
View File

@ -0,0 +1,280 @@
/*
* Copyright 2020 Fluence Labs Limited
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
import bs58 from 'bs58';
import { sendParticleAsFetch } from '../api';
import { Particle } from './particle';
import { FluenceClient } from '../FluenceClient';
import { ModuleConfig } from './moduleConfig';
const nodeIdentityCall = (client: FluenceClient): string => {
return `(call "${client.relayPeerId}" ("op" "identity") [])`;
};
const requestResponse = async <T>(
client: FluenceClient,
name: string,
call: (nodeId: string) => string,
returnValue: string,
data: Map<string, any>,
handleResponse: (args: any[]) => T,
nodeId?: string,
ttl?: number,
): Promise<T> => {
if (!ttl) {
ttl = 10000;
}
if (!nodeId) {
nodeId = client.relayPeerId;
}
let serviceCall = call(nodeId);
let script = `(seq
${nodeIdentityCall(client)}
(seq
(seq
${serviceCall}
${nodeIdentityCall(client)}
)
(call "${client.selfPeerId}" ("_callback" "${name}") [${returnValue}])
)
)
`;
const res = await sendParticleAsFetch<any[]>(client, new Particle(script, data, ttl), '');
return handleResponse(res);
};
/**
* Get all available modules hosted on a connected relay. @deprecated prefer using raw Particles instead
* @param { FluenceClient } client - The Fluence Client instance.
* @returns { Array<string> } - list of available modules on the connected relay
*/
export const getModules = async (client: FluenceClient): Promise<string[]> => {
const particle = new Particle(
`
(seq
(call __relay ("dist" "get_modules") [] result)
(call myPeerId ("_callback" "getModules") [result])
)
`,
{
__relay: client.relayPeerId,
myPeerId: client.selfPeerId,
},
);
return sendParticleAsFetch(client, particle, 'getModules');
};
/**
* Send a script to add module to a relay. Waiting for a response from a relay. @deprecated prefer using raw Particles instead
* @param { FluenceClient } client - The Fluence Client instance.
* @param { string } name - Name of the uploaded module
* @param { string } moduleBase64 - Base64 content of the module
* @param { ModuleConfig } config - Module config
*/
export const uploadModule = async (
client: FluenceClient,
name: string,
moduleBase64: string,
config?: ModuleConfig,
): Promise<string[]> => {
if (!config) {
config = {
name: name,
mem_pages_count: 100,
logger_enabled: true,
wasi: {
envs: {},
preopened_files: ['/tmp'],
mapped_dirs: {},
},
};
}
let data = new Map();
data.set('module_bytes', moduleBase64);
data.set('module_config', config);
data.set('__relay', client.relayPeerId);
data.set('myPeerId', client.selfPeerId);
let script = `
(seq
(call __relay ("dist" "add_module") [module_bytes module_config] result)
(call myPeerId ("_callback" "getModules") [result])
)
`;
return sendParticleAsFetch(client, new Particle(script, data), 'result');
};
/**
* Send a script to add module to a relay. Waiting for a response from a relay. @deprecated prefer using raw Particles instead
* @param { FluenceClient } client - The Fluence Client instance.
* @param { string } name - Name of the blueprint
* @param { Array<string> } dependencies - Array of it's dependencies
* @param {[string]} blueprintId - Optional blueprint ID
* @param {[string]} nodeId - Optional node peer id to deploy blueprint to
* @param {[number]} ttl - Optional ttl for the particle which does the job
* @returns { string } - Created blueprint ID
*/
export const addBlueprint = async (
client: FluenceClient,
name: string,
dependencies: string[],
blueprintId?: string,
nodeId?: string,
ttl?: number,
): Promise<string> => {
let returnValue = 'blueprint_id';
let call = (nodeId: string) => `(call "${nodeId}" ("dist" "add_blueprint") [blueprint] ${returnValue})`;
let data = new Map();
data.set('blueprint', { name: name, dependencies: dependencies, id: blueprintId });
return requestResponse(
client,
'addBlueprint',
call,
returnValue,
data,
(args: any[]) => args[0] as string,
nodeId,
ttl,
);
};
/**
* Send a script to create a service on the connected relay. Waiting for a response from the relay. @deprecated prefer using raw Particles instead
* @param { FluenceClient } client - The Fluence Client instance.
* @param {string} blueprintId - The blueprint of the service
* @param {[string]} nodeId - Optional node peer id to deploy service to
* @param {[number]} ttl - Optional ttl for the particle which does the job
* @returns { string } - Created service ID
*/
export const createService = async (
client: FluenceClient,
blueprintId: string,
nodeId?: string,
ttl?: number,
): Promise<string> => {
let returnValue = 'service_id';
let call = (nodeId: string) => `(call "${nodeId}" ("srv" "create") [blueprint_id] ${returnValue})`;
let data = new Map();
data.set('blueprint_id', blueprintId);
return requestResponse(
client,
'createService',
call,
returnValue,
data,
(args: any[]) => args[0] as string,
nodeId,
ttl,
);
};
/**
* Get all available blueprints hosted on a connected relay. @deprecated prefer using raw Particles instead
* @param { FluenceClient } client - The Fluence Client instance.
* @param {[string]} nodeId - Optional node peer id to get available blueprints from
* @param {[number]} ttl - Optional ttl for the particle which does the job
* @returns { Array<string> } - List of available blueprints
*/
export const getBlueprints = async (client: FluenceClient, nodeId: string, ttl?: number): Promise<string[]> => {
let returnValue = 'blueprints';
let call = (nodeId: string) => `(call "${nodeId}" ("dist" "get_blueprints") [] ${returnValue})`;
return requestResponse(
client,
'getBlueprints',
call,
returnValue,
new Map(),
(args: any[]) => args[0] as string[],
nodeId,
ttl,
);
};
/**
* Add a provider to DHT network to neighborhood around a key. @deprecated prefer using raw Particles instead
*/
export const addProvider = async (
client: FluenceClient,
key: Buffer,
providerPeer: string,
providerServiceId?: string,
nodeId?: string,
ttl?: number,
): Promise<void> => {
let call = (nodeId: string) => `(call "${nodeId}" ("dht" "add_provider") [key provider] void[])`;
key = bs58.encode(key) as any;
let provider = {
peer: providerPeer,
service_id: providerServiceId,
};
let data = new Map();
data.set('key', key);
data.set('provider', provider);
return requestResponse(client, 'addProvider', call, '', data, () => {}, nodeId, ttl);
};
/**
* Get a provider from DHT network from neighborhood around a key. @deprecated prefer using raw Particles instead
* @param { FluenceClient } client - The Fluence Client instance.
* @param {[string]} nodeId - Optional node peer id to get providers from
* @param {[number]} ttl - Optional ttl for the particle which does the job
* @returns { Array<object> } - List of providers
*/
export const getProviders = async (client: FluenceClient, key: Buffer, nodeId?: string, ttl?: number): Promise<any> => {
key = bs58.encode(key) as any;
let returnValue = 'providers';
let call = (nodeId: string) => `(call "${nodeId}" ("dht" "get_providers") [key] providers[])`;
let data = new Map();
data.set('key', key);
return requestResponse(client, 'getProviders', call, returnValue, data, (args) => args[0], nodeId, ttl);
};
/**
* Get relays neighborhood. @deprecated prefer using raw Particles instead
* @param { FluenceClient } client - The Fluence Client instance.
* @param {[string]} nodeId - Optional node peer id to get neighborhood from
* @param {[number]} ttl - Optional ttl for the particle which does the job
* @returns { Array<string> } - List of peer ids of neighbors of the node
*/
export const neighborhood = async (client: FluenceClient, node: string, ttl?: number): Promise<string[]> => {
let returnValue = 'neighborhood';
let call = (nodeId: string) => `(call "${nodeId}" ("dht" "neighborhood") [node] ${returnValue})`;
let data = new Map();
data.set('node', node);
return requestResponse(client, 'neighborhood', call, returnValue, data, (args) => args[0] as string[], node, ttl);
};

29
src/internal/moduleConfig.ts Normal file
View File

@ -0,0 +1,29 @@
/*
* Copyright 2020 Fluence Labs Limited
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
export interface ModuleConfig {
name: string;
mem_pages_count?: number;
logger_enabled?: boolean;
wasi?: Wasi;
mounted_binaries?: object;
}
export interface Wasi {
envs?: object;
preopened_files?: string[];
mapped_dirs?: object;
}

9
src/internal/particle.ts
View File

@ -22,11 +22,20 @@ import { injectDataIntoParticle } from './ParticleProcessor';
const DEFAULT_TTL = 7000;
/**
* The class representing Particle - a data structure used to perform operations on Fluence Network. It originates on some peer in the network, travels the network through a predefined path, triggering function execution along its way.
*/
export class Particle {
script: string;
data: Map<string, any>;
ttl: number;
/**
* Creates a particle with specified parameters.
* @param { String }script - Air script which defines the execution of a particle its path, functions it triggers on peers, and so on.
* @param { Map<string, any> | Record<string, any> } data - Variables passed to the particle in the form of either JS Map or JS object with keys representing variable names and values representing values correspondingly
* @param { [Number]=7000 } ttl - Time to live, a timout after which the particle execution is stopped by Aquamarine.
*/
constructor(script: string, data?: Map<string, any> | Record<string, any>, ttl?: number) {
this.script = script;
if (data === undefined) {

34
src/internal/peerIdUtils.ts
View File

@ -19,20 +19,30 @@ import { decode, encode } from 'bs58';
import { keys } from 'libp2p-crypto';
/**
* @param seed 32 bytes
* Converts seed string which back to peer id. Seed string can be obtained by using @see {@link peerIdToSeed} function
* @param { string } seed - Seed to convert to peer id
* @returns { PeerId } - Peer id
*/
export async function seedToPeerId(seed: string): Promise<PeerId> {
let seedArr = decode(seed);
export const seedToPeerId = async (seed: string): Promise<PeerId> => {
const seedArr = decode(seed);
const privateKey = await keys.generateKeyPairFromSeed('Ed25519', Uint8Array.from(seedArr), 256);
return await PeerId.createFromPrivKey(privateKey.bytes);
};
let privateK = await keys.generateKeyPairFromSeed('Ed25519', Uint8Array.from(seedArr), 256);
return await PeerId.createFromPrivKey(privateK.bytes);
}
export function peerIdToSeed(peerId: PeerId): string {
let seedBuf = peerId.privKey.marshal().subarray(0, 32);
/**
* Converts peer id to a string which can be used to restore back to peer id format with. @see {@link seedToPeerId}
* @param { PeerId } peerId - Peer id to convert to seed
* @returns { string } - Seed string
*/
export const peerIdToSeed = (peerId: PeerId): string => {
const seedBuf = peerId.privKey.marshal().subarray(0, 32);
return encode(seedBuf);
}
};
export async function generatePeerId(): Promise<PeerId> {
/**
* Generates a new peer id with random private key
* @returns { Promise<PeerId> } - Promise with the created Peer Id
*/
export const generatePeerId = async (): Promise<PeerId> => {
return await PeerId.create({ keyType: 'Ed25519' });
}
};

12
src/internal/stepper.ts
View File

@ -36,8 +36,8 @@ type ImportObject = {
'./aquamarine_client_bg.js': {
// fn call_service_impl(service_id: String, fn_name: String, args: String, security_tetraplets: String) -> String;
// prettier-ignore
__wbg_callserviceimpl_94e62d12c5d03766: (arg0: any, arg1: any, arg2: any, arg3: any, arg4: any, arg5: any, arg6: any, arg7: any, arg8: any, ) => void;
__wbg_getcurrentpeeridimpl_154ce1848a306ff5: (arg0: any) => void;
__wbg_callserviceimpl_6c417d87790b1ab9: (arg0: any, arg1: any, arg2: any, arg3: any, arg4: any, arg5: any, arg6: any, arg7: any, arg8: any, ) => void;
__wbg_getcurrentpeeridimpl_7eaedb265739e0d2: (arg0: any) => void;
__wbindgen_throw: (arg: any) => void;
};
host: LogImport;
@ -153,7 +153,7 @@ function newImportObject(particleHandler: ParticleHandler, cfg: HostImportsConfi
// If so, an error with a new name will be occurred after wasm initialization.
'./aquamarine_client_bg.js': {
// prettier-ignore
__wbg_callserviceimpl_94e62d12c5d03766: (arg0: any, arg1: any, arg2: any, arg3: any, arg4: any, arg5: any, arg6: any, arg7: any, arg8: any) => {
__wbg_callserviceimpl_6c417d87790b1ab9: (arg0: any, arg1: any, arg2: any, arg3: any, arg4: any, arg5: any, arg6: any, arg7: any, arg8: any) => {
let wasm = cfg.exports;
try {
let serviceId = getStringFromWasm0(wasm, arg1, arg2);
@ -177,7 +177,7 @@ function newImportObject(particleHandler: ParticleHandler, cfg: HostImportsConfi
free(wasm, arg7, arg8);
}
},
__wbg_getcurrentpeeridimpl_154ce1848a306ff5: (arg0: any) => {
__wbg_getcurrentpeeridimpl_7eaedb265739e0d2: (arg0: any) => {
let peerIdStr = peerId.toB58String();
let wasm = cfg.exports;
return_current_peer_id(wasm, peerIdStr, arg0);
@ -194,8 +194,8 @@ function newLogImport(cfg: HostImportsConfig): ImportObject {
return {
host: log_import(cfg),
'./aquamarine_client_bg.js': {
__wbg_callserviceimpl_94e62d12c5d03766: (_) => {},
__wbg_getcurrentpeeridimpl_154ce1848a306ff5: (_) => {},
__wbg_callserviceimpl_6c417d87790b1ab9: (_) => {},
__wbg_getcurrentpeeridimpl_7eaedb265739e0d2: (_) => {},
__wbindgen_throw: (_) => {},
},
};