mirror of
https://github.com/fluencelabs/trust-graph
synced 2024-12-04 23:30:19 +00:00
153 lines
5.3 KiB
TypeScript
153 lines
5.3 KiB
TypeScript
/*
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* Copyright 2021 Fluence Labs Limited
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*
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* Licensed under the Apache License, Version 2.0 (the "License");
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* you may not use this file except in compliance with the License.
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* You may obtain a copy of the License at
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*
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* http://www.apache.org/licenses/LICENSE-2.0
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*
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* Unless required by applicable law or agreed to in writing, software
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* distributed under the License is distributed on an "AS IS" BASIS,
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* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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* See the License for the specific language governing permissions and
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* limitations under the License.
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*/
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import { trusted_computation } from "./generated/computation";
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import * as tg from "./generated/export";
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import { Fluence, FluencePeer, KeyPair } from "@fluencelabs/fluence";
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import { krasnodar, Node, testNet, stage } from "@fluencelabs/fluence-network-environment";
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import assert from "assert";
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const bs58 = require('bs58');
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let local: Node[] = [
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{
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peerId: "12D3KooWHBG9oaVx4i3vi6c1rSBUm7MLBmyGmmbHoZ23pmjDCnvK",
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multiaddr:
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"/ip4/127.0.0.1/tcp/9990/ws/p2p/12D3KooWHBG9oaVx4i3vi6c1rSBUm7MLBmyGmmbHoZ23pmjDCnvK",
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},
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{
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peerId: "12D3KooWRABanQHUn28dxavN9ZS1zZghqoZVAYtFpoN7FdtoGTFv",
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multiaddr:
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"/ip4/127.0.0.1/tcp/9991/ws/p2p/12D3KooWRABanQHUn28dxavN9ZS1zZghqoZVAYtFpoN7FdtoGTFv",
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},
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{
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peerId: "12D3KooWFpQ7LHxcC9FEBUh3k4nSCC12jBhijJv3gJbi7wsNYzJ5",
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multiaddr:
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"/ip4/127.0.0.1/tcp/9992/ws/p2p/12D3KooWFpQ7LHxcC9FEBUh3k4nSCC12jBhijJv3gJbi7wsNYzJ5",
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},
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];
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async function revoke_all(relay: string, revoked_by: string, nodes: Node[]) {
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for (var node of nodes) {
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let error = await tg.revoke(relay, revoked_by, node.peerId);
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if (error !== null) {
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console.log(error)
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}
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}
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}
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async function add_new_trust_checked(relay: string, issuer: string, issued_for_peer_id: string, expires_at_sec: number) {
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let error = await tg.add_trust(relay, issuer, issued_for_peer_id, expires_at_sec);
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if (error !== null) {
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console.error("%s", error);
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} else {
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console.log("Trust issued for %s successfully added", issued_for_peer_id)
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}
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}
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async function revoke_checked(relay: string, revoked_by: string, revoked_peer_id: string) {
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let error = await tg.revoke(relay, revoked_by, revoked_peer_id);
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if (error !== null) {
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console.log("%s", error);
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} else {
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console.log("Trust issued for %s revoked", revoked_peer_id)
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}
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}
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async function exec_trusted_computation(node: string) {
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let [result, error] = await trusted_computation(node)
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if (result !== null) {
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console.log("📗 Trusted computation on node %s successful, result is %s", node, result)
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} else {
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console.log("📕 Trusted computation on node %s failed, error:", node, error)
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}
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}
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async function main(nodes: Node[]) {
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// example_secret_key.ed25519
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let sk = bs58.decode("E5ay3731i4HN8XjJozouV92RDMGAn3qSnb9dKSnujiWv");
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let builtins_keypair = await KeyPair.fromEd25519SK(sk);
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let relay = nodes[0];
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await Fluence.start({ connectTo: relay, KeyPair: builtins_keypair });
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console.log(
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"📗 created a fluence peer %s with relay %s",
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Fluence.getStatus().peerId,
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Fluence.getStatus().relayPeerId
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);
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let local_peer_id = Fluence.getStatus().peerId;
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assert(local_peer_id !== null);
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let current_time = await tg.timestamp_sec();
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let far_future = current_time + 9999999;
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// clear all trusts from our peer id on relay
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await revoke_all(relay.peerId, local_peer_id, nodes.slice(0, 3));
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// wait to be sure that last revocation will be older than future trusts at least on 1 second (because timestamp in secs)
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await new Promise(f => setTimeout(f, 1000));
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let nodeA = nodes[0].peerId
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let nodeB = nodes[1].peerId
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let nodeC = nodes[2].peerId
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console.log();
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// try to exec computation on every node, will fail
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await exec_trusted_computation(nodeA); // fail
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await exec_trusted_computation(nodeB); // fail
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await exec_trusted_computation(nodeC); // fail
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console.log();
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console.log("🌀 Issue trust to nodeB %s and nodeC: %s", nodeB, nodeC);
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await add_new_trust_checked(relay.peerId, local_peer_id, nodeB, far_future);
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await add_new_trust_checked(relay.peerId, local_peer_id, nodeC, far_future);
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console.log();
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await exec_trusted_computation(nodeA); // fail
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await exec_trusted_computation(nodeB); // success
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await exec_trusted_computation(nodeC); // success
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console.log();
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await new Promise(f => setTimeout(f, 1000));
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console.log("🚫 Revoke trust to nodeB");
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await revoke_checked(relay.peerId, local_peer_id, nodeB);
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console.log();
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await exec_trusted_computation(nodeA); // fail
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await exec_trusted_computation(nodeB); // fail
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await exec_trusted_computation(nodeC); // success
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return;
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}
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console.log("In this example we try to execute some trusted computations based on trusts");
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let args = process.argv.slice(2);
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var environment: Node[];
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if (args.length >= 1 && args[0] == "local") {
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environment = local;
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console.log("📘 Will connect to local nodes");
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} else {
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environment = testNet;
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console.log("📘 Will connect to testNet");
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}
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main(environment)
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.then(() => process.exit(0))
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.catch((error) => {
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console.error(error);
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process.exit(1);
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});
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