snt-gas-relay/test/identity.js

264 lines
8.9 KiB
JavaScript

const TestUtils = require("./TestUtils.js")
const Identity = artifacts.require("./identity/Identity.sol");
contract('Identity', function(accounts) {
let identity;
beforeEach(async () => {
identity = await Identity.new({from: accounts[0]})
})
describe("Identity()", () => {
it("initialize with msg.sender as management key", async () => {
assert.equal(
await identity.getKeyPurpose(TestUtils.addressToBytes32(accounts[0])),
1,
identity.address + ".getKeyPurpose("+accounts[0]+") is not MANAGEMENT_KEY")
});
});
describe("addKey(address _key, uint256 _type)", () => {
it("MANAGEMENT_KEY add a new address as ACTION_KEY", async () => {
await identity.addKey(TestUtils.addressToBytes32(accounts[1]), 2, 1, {from: accounts[0]})
assert.equal(
await identity.getKeyPurpose(TestUtils.addressToBytes32(accounts[1])),
2,
identity.address+".getKeyPurpose("+accounts[1]+") is not ACTION_KEY")
});
it("should not add key by non manager", async () => {
try {
await identity.addKey(TestUtils.addressToBytes32(accounts[1]), 1, 1, {from: accounts[2]})
}catch(e){
}
assert.equal(
await identity.getKeyPurpose(TestUtils.addressToBytes32(accounts[1])),
0,
identity.address+".getKeyPurpose("+accounts[1]+") is not correct")
});
it("should not add key type 1 by actor", async () => {
await identity.addKey(TestUtils.addressToBytes32(accounts[2]), 2, 1, {from: accounts[0]})
try {
await identity.addKey(TestUtils.addressToBytes32(accounts[1]), 1, 1, {from: accounts[2]})
} catch(e){
}
assert.equal(
await identity.getKeyPurpose(TestUtils.addressToBytes32(accounts[1])),
0,
identity.address+".getKeyType("+accounts[1]+") is not correct")
});
it("fire KeyAdded(address indexed key, uint256 indexed type)", async () => {
identity.addKey(TestUtils.addressToBytes32(accounts[1]), 2, 1, {from: accounts[0]})
const keyAdded = await TestUtils.listenForEvent(identity.KeyAdded())
assert(keyAdded.key, TestUtils.addressToBytes32(accounts[1]), "Key is not correct")
assert(keyAdded.keyType, 2, "Type is not correct")
});
});
describe("removeKey(address _key, uint256 _type)", () => {
it("MANAGEMENT_KEY should removes a key", async () => {
await identity.addKey(TestUtils.addressToBytes32(accounts[1]), 1, 1, {from: accounts[0]})
await identity.removeKey(TestUtils.addressToBytes32(accounts[0]), 1, {from: accounts[1]})
assert.equal(
await identity.getKeyPurpose(TestUtils.addressToBytes32(accounts[0])),
0,
identity.address+".getKeyPurpose("+accounts[0]+") is not 0")
});
it("other key should not removes a key", async () => {
await identity.addKey(TestUtils.addressToBytes32(accounts[1]), 1, 1, {from: accounts[0]})
try {
await identity.removeKey(TestUtils.addressToBytes32(accounts[1]), 1, {from: accounts[2]})
}catch (e) {
}
assert.equal(
await identity.getKeyPurpose(TestUtils.addressToBytes32(accounts[1])),
1,
identity.address+".getKeyPurpose("+accounts[1]+") is not 0")
});
it("actor key should not remove key", async () => {
await identity.addKey(TestUtils.addressToBytes32(accounts[1]), 2, 1, {from: accounts[0]})
await identity.addKey(TestUtils.addressToBytes32(accounts[2]), 2, 1, {from: accounts[0]})
try {
await identity.removeKey(TestUtils.addressToBytes32(accounts[1]), 1, {from: accounts[2]})
}catch (e) {
}
assert.equal(
await identity.getKeyPurpose(TestUtils.addressToBytes32(accounts[1])),
2,
identity.address+".getKeyType("+accounts[1]+") is not 0")
});
it("MANAGEMENT_KEY should not remove itself MANAGEMENT_KEY when there is no other MANAGEMENT_KEY", async () => {
let assertJump = (error) => {
assert.isAbove(error.message.search('revert'), -1, 'Revert should happen');
}
try {
await identity.removeKey(TestUtils.addressToBytes32(accounts[0]), 1, {from: accounts[0]});
assert.fail('should have reverted before');
} catch(error) {
assertJump(error);
}
});
it("fire KeyRemoved(address indexed key, uint256 indexed type)", async () => {
await identity.addKey(TestUtils.addressToBytes32(accounts[1]), 2, 1,{from: accounts[0]})
identity.removeKey(TestUtils.addressToBytes32(accounts[1]), 2, {from: accounts[0]})
const keyRemoved = await TestUtils.listenForEvent(identity.KeyRemoved())
assert(keyRemoved.key, TestUtils.addressToBytes32(accounts[1]), "Key is not correct")
assert(keyRemoved.keyType, 2, "Type is not correct")
});
});
describe("getKeyPurpose(address _key)", () => {
it("should start only with initializer as only key", async () => {
assert.equal(
await identity.getKeyPurpose(TestUtils.addressToBytes32(accounts[0])),
1,
identity.address+".getKeyPurpose("+accounts[0]+") is not correct")
assert.equal(
await identity.getKeyPurpose(TestUtils.addressToBytes32(accounts[1])),
0,
identity.address+".getKeyPurpose("+accounts[1]+") is not correct")
});
it("should get type 2 after addKey type 2", async () => {
await identity.addKey(TestUtils.addressToBytes32(accounts[1]), 2, 1, {from: accounts[0]})
assert.equal(
await identity.getKeyPurpose(TestUtils.addressToBytes32(accounts[1])),
2,
identity.address+".getKeyPurpose("+accounts[1]+") is not correct")
});
it("should get type 3 after addKey type 3", async () => {
await identity.addKey(TestUtils.addressToBytes32(accounts[1]), 3, 1, {from: accounts[0]})
assert.equal(
await identity.getKeyPurpose(TestUtils.addressToBytes32(accounts[1])),
3,
identity.address+".getKeyPurpose("+accounts[1]+") is not correct")
});
});
describe("getKeysByType(uint256 _type)", () => {
it("at initialization", async () => {
});
it("after addKey", async () => {
});
it("after removeKey", async () => {
});
it("after replaceKey", async () => {
});
});
describe("execute(address _to, uint256 _value, bytes _data)", () => {
it("ACTOR_KEY execute arbitrary transaction", async () => {
});
it("MANAGEMENT_KEY execute arbitrary transaction", async () => {
});
it("Other keys NOT execute arbitrary transaction", async () => {
});
it("fire Executed(uint256 indexed executionId, address indexed to, uint256 indexed value, bytes data)", async () => {
});
});
describe("approve(bytes32 _id, bool _approve)", () => {
it("MANAGEMENT_KEY should approve a claim", async () => {
});
it("MANAGEMENT_KEY should approve a transaction", async () => {
});
it("fire Approved(uint256 indexed executionId, bool approved)", async () => {
});
});
describe("getClaim(bytes32 _claimId)", () => {
it("Returns a claim by ID.", async () => {
});
});
describe("getClaimIdsByType(uint256 _claimType)", () => {
it("Returns an array of claim IDs by type.", async () => {
});
});
describe("addClaim(uint256 _claimType, address issuer, uint256 signatureType, bytes _signature, bytes _data, string _uri)", () => {
it("Requests the ADDITION of a claim from an issuer", async () => {
});
it("Requests the CHANGE of a claim from an issuer", async () => {
});
});
describe("removeClaim(bytes32 _claimId)", () => {
it("Requests the DELETION of a claim from an issuer", async () => {
});
it("Requests the DELETION of a claim from identity", async () => {
});
});
});