signal-desktop/ts/test-node/sql/migration_87_test.ts

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// Copyright 2023 Signal Messenger, LLC
// SPDX-License-Identifier: AGPL-3.0-only
import { assert } from 'chai';
import { v4 as generateGuid } from 'uuid';
import { range } from 'lodash';
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import { createDB, insertData, updateToVersion } from './helpers';
import type {
AciString,
PniString,
ServiceIdString,
} from '../../types/ServiceId';
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import { normalizePni } from '../../types/ServiceId';
import { normalizeAci } from '../../util/normalizeAci';
import type {
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WritableDB,
KyberPreKeyType,
PreKeyType,
SignedPreKeyType,
} from '../../sql/Interface';
type TestingKyberKey = Omit<
KyberPreKeyType,
'data' | 'isLastResort' | 'isConfirmed' | 'createdAt' | 'ourServiceId'
> & {
createdAt: number | undefined;
ourUuid: PniString | AciString;
};
type TestingPreKey = Omit<
PreKeyType,
| 'privateKey'
| 'publicKey'
| 'isLastResort'
| 'isConfirmed'
| 'createdAt'
| 'ourServiceId'
> & {
createdAt: number | undefined;
ourUuid: PniString | AciString;
};
type TestingSignedKey = Omit<
SignedPreKeyType,
'privateKey' | 'publicKey' | 'confirmed' | 'created_at' | 'ourServiceId'
> & {
created_at: number | undefined;
ourUuid: PniString | AciString;
};
describe('SQL/updateToSchemaVersion87(cleanup)', () => {
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let db: WritableDB;
const OUR_ACI = normalizeAci(
generateGuid(),
'updateToSchemaVersion87(cleanup) test'
);
const OUR_PNI = normalizePni(
`PNI:${generateGuid()}`,
'updateToSchemaVersion87(cleanup) test'
);
let idCount = 0;
beforeEach(() => {
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db = createDB();
updateToVersion(db, 86);
});
afterEach(() => {
db.close();
});
function addPni() {
insertData(db, 'items', [
{
id: 'pni',
json: {
id: 'pni',
value: OUR_PNI,
},
},
]);
}
function getCountOfKyberKeys(): number {
return db.prepare('SELECT count(*) FROM kyberPreKeys;').pluck(true).get();
}
function getCountOfPreKeys(): number {
return db.prepare('SELECT count(*) FROM preKeys;').pluck(true).get();
}
function getCountOfSignedKeys(): number {
return db.prepare('SELECT count(*) FROM signedPreKeys;').pluck(true).get();
}
function getPragma(): number {
return db.prepare('PRAGMA user_version;').pluck(true).get();
}
function generateKyberKey(
createdAt: number | undefined,
ourServiceId: ServiceIdString
): TestingKyberKey {
idCount += 1;
return {
createdAt,
id: `${ourServiceId}:${idCount}`,
keyId: idCount,
ourUuid: ourServiceId,
};
}
function generatePreKey(
createdAt: number | undefined,
ourServiceId: ServiceIdString
): TestingPreKey {
idCount += 1;
return {
createdAt,
id: `${ourServiceId}:${idCount}`,
keyId: idCount,
ourUuid: ourServiceId,
};
}
function generateSignedKey(
createdAt: number | undefined,
ourServiceId: ServiceIdString
): TestingSignedKey {
idCount += 1;
return {
created_at: createdAt,
id: `${ourServiceId}:${idCount}`,
keyId: idCount,
ourUuid: ourServiceId,
};
}
function getRangeOfKyberKeysForInsert(
start: number,
end: number,
ourServiceId: ServiceIdString,
options?: {
clearCreatedAt?: boolean;
}
): Array<{ id: string; json: TestingKyberKey }> {
return range(start, end).map(createdAt => {
const key = generateKyberKey(
options?.clearCreatedAt ? undefined : createdAt,
ourServiceId
);
return {
id: key.id,
json: key,
};
});
}
it('handles missing PNI', () => {
assert.strictEqual(0, getCountOfKyberKeys());
insertData(
db,
'kyberPreKeys',
getRangeOfKyberKeysForInsert(0, 3000, OUR_ACI)
);
assert.strictEqual(3000, getCountOfKyberKeys());
assert.strictEqual(86, getPragma());
updateToVersion(db, 88);
assert.strictEqual(88, getPragma());
assert.strictEqual(3000, getCountOfKyberKeys());
});
describe('kyberPreKeys', () => {
it('deletes 2000 extra keys', () => {
assert.strictEqual(0, getCountOfKyberKeys());
addPni();
insertData(
db,
'kyberPreKeys',
getRangeOfKyberKeysForInsert(0, 3000, OUR_PNI)
);
assert.strictEqual(3000, getCountOfKyberKeys());
assert.strictEqual(86, getPragma());
updateToVersion(db, 88);
assert.strictEqual(88, getPragma());
assert.strictEqual(1000, getCountOfKyberKeys());
});
it('leaves 1000 existing keys alone', () => {
assert.strictEqual(0, getCountOfKyberKeys());
addPni();
insertData(
db,
'kyberPreKeys',
getRangeOfKyberKeysForInsert(0, 1000, OUR_PNI)
);
assert.strictEqual(1000, getCountOfKyberKeys());
assert.strictEqual(86, getPragma());
updateToVersion(db, 88);
assert.strictEqual(88, getPragma());
assert.strictEqual(1000, getCountOfKyberKeys());
});
it('leaves keys with missing createdAt alone', () => {
assert.strictEqual(0, getCountOfKyberKeys());
addPni();
insertData(
db,
'kyberPreKeys',
getRangeOfKyberKeysForInsert(0, 3000, OUR_PNI, { clearCreatedAt: true })
);
assert.strictEqual(3000, getCountOfKyberKeys());
assert.strictEqual(86, getPragma());
updateToVersion(db, 88);
assert.strictEqual(88, getPragma());
assert.strictEqual(3000, getCountOfKyberKeys());
});
it('leaves extra ACI keys alone, even if above 1000', () => {
assert.strictEqual(0, getCountOfKyberKeys());
addPni();
insertData(
db,
'kyberPreKeys',
getRangeOfKyberKeysForInsert(0, 3000, OUR_ACI)
);
assert.strictEqual(3000, getCountOfKyberKeys());
assert.strictEqual(86, getPragma());
updateToVersion(db, 88);
assert.strictEqual(88, getPragma());
assert.strictEqual(3000, getCountOfKyberKeys());
});
});
describe('preKeys', () => {
function getRangeOfPreKeysForInsert(
start: number,
end: number,
ourServiceId: ServiceIdString,
options?: {
clearCreatedAt?: boolean;
}
): Array<{ id: string; json: TestingPreKey }> {
return range(start, end).map(createdAt => {
const key = generatePreKey(
options?.clearCreatedAt ? undefined : createdAt,
ourServiceId
);
return {
id: key.id,
json: key,
};
});
}
it('deletes 2000 extra keys', () => {
assert.strictEqual(0, getCountOfPreKeys());
addPni();
insertData(db, 'preKeys', getRangeOfPreKeysForInsert(0, 3000, OUR_PNI));
assert.strictEqual(3000, getCountOfPreKeys());
assert.strictEqual(86, getPragma());
updateToVersion(db, 88);
assert.strictEqual(88, getPragma());
assert.strictEqual(1000, getCountOfPreKeys());
});
it('leaves 1000 existing keys alone', () => {
assert.strictEqual(0, getCountOfPreKeys());
addPni();
insertData(db, 'preKeys', getRangeOfPreKeysForInsert(0, 1000, OUR_PNI));
assert.strictEqual(1000, getCountOfPreKeys());
assert.strictEqual(86, getPragma());
updateToVersion(db, 88);
assert.strictEqual(88, getPragma());
assert.strictEqual(1000, getCountOfPreKeys());
});
it('leaves keys with missing createdAt alone', () => {
assert.strictEqual(0, getCountOfPreKeys());
addPni();
insertData(
db,
'preKeys',
getRangeOfPreKeysForInsert(0, 3000, OUR_PNI, {
clearCreatedAt: true,
})
);
assert.strictEqual(3000, getCountOfPreKeys());
assert.strictEqual(86, getPragma());
updateToVersion(db, 88);
assert.strictEqual(88, getPragma());
assert.strictEqual(3000, getCountOfPreKeys());
});
it('leaves extra ACI keys alone, even if above 1000', () => {
assert.strictEqual(0, getCountOfPreKeys());
addPni();
insertData(db, 'preKeys', getRangeOfPreKeysForInsert(0, 3000, OUR_ACI));
assert.strictEqual(3000, getCountOfPreKeys());
assert.strictEqual(86, getPragma());
updateToVersion(db, 88);
assert.strictEqual(88, getPragma());
assert.strictEqual(3000, getCountOfPreKeys());
});
});
describe('signedPreKeys', () => {
function getRangeOfSignedKeysForInsert(
start: number,
end: number,
ourServiceId: ServiceIdString,
options?: {
clearCreatedAt?: boolean;
}
): Array<{ id: string; json: TestingSignedKey }> {
return range(start, end).map(createdAt => {
const key = generateSignedKey(
options?.clearCreatedAt ? undefined : createdAt,
ourServiceId
);
return {
id: key.id,
json: key,
};
});
}
it('deletes 2000 extra keys', () => {
assert.strictEqual(0, getCountOfSignedKeys());
addPni();
insertData(
db,
'signedPreKeys',
getRangeOfSignedKeysForInsert(0, 3000, OUR_PNI)
);
assert.strictEqual(3000, getCountOfSignedKeys());
assert.strictEqual(86, getPragma());
updateToVersion(db, 88);
assert.strictEqual(88, getPragma());
assert.strictEqual(1000, getCountOfSignedKeys());
});
it('leaves 1000 existing keys alone', () => {
assert.strictEqual(0, getCountOfSignedKeys());
addPni();
insertData(
db,
'signedPreKeys',
getRangeOfSignedKeysForInsert(0, 1000, OUR_PNI)
);
assert.strictEqual(1000, getCountOfSignedKeys());
assert.strictEqual(86, getPragma());
updateToVersion(db, 88);
assert.strictEqual(88, getPragma());
assert.strictEqual(1000, getCountOfSignedKeys());
});
it('leaves keys with missing createdAt alone', () => {
assert.strictEqual(0, getCountOfSignedKeys());
addPni();
insertData(
db,
'signedPreKeys',
getRangeOfSignedKeysForInsert(0, 3000, OUR_PNI, {
clearCreatedAt: true,
})
);
assert.strictEqual(3000, getCountOfSignedKeys());
assert.strictEqual(86, getPragma());
updateToVersion(db, 88);
assert.strictEqual(88, getPragma());
assert.strictEqual(3000, getCountOfSignedKeys());
});
it('leaves extra ACI keys alone, even if above 1000', () => {
assert.strictEqual(0, getCountOfSignedKeys());
addPni();
insertData(
db,
'signedPreKeys',
getRangeOfSignedKeysForInsert(0, 3000, OUR_ACI)
);
assert.strictEqual(3000, getCountOfSignedKeys());
assert.strictEqual(86, getPragma());
updateToVersion(db, 88);
assert.strictEqual(88, getPragma());
assert.strictEqual(3000, getCountOfSignedKeys());
});
});
});