This is a demo project for the SecTester JS SDK framework, with some installation and usage examples. We recommend forking it and playing around, that’s what it’s for!
Bright is a developer-first Dynamic Application Security Testing (DAST) scanner.
SecTester is a new tool that integrates our enterprise-grade scan engine directly into your unit tests.
With SecTester you can:
- Test every function and component directly
- Run security scans at the speed of unit tests
- Find vulnerabilities with no false positives, before you finalize your Pull Request
Trying out Bright’s SecTester is free 💸, so let’s get started!
⚠️ DisclaimerThe SecTester project is currently in beta as an early-access tool. We are looking for your feedback to make it the best possible solution for developers, aimed to be used as part of your team’s SDLC. We apologize if not everything will work smoothly from the start, and hope a few bugs or missing features will be no match for you!
Thank you! We appreciate your help and feedback!
- Press the ‘fork’ button to make a copy of this repo in your own GH account
- In your forked repo, clone this project down to your local machine using either SSH or HTTP
- Register for a free account at Bright’s signup page
- Go to User settings to create your own API key
- Create a Bright API key (check out our doc on how to create a user key)
- Save the Bright API key
- We recommend using GitHub’s repository secrets feature to store your API key securely. To do this, navigate to
Settings > Secrets and variables > Actions
in your GitHub repository, create a new repository secret named BRIGHT_TOKEN and set its value to your Bright API key. - If you don’t use that option, make sure you save the key in a secure location. You will need to access it later on in the project but will not be able to view it again.
- More info on how to use ENV vars in GitHub actions
- We recommend using GitHub’s repository secrets feature to store your API key securely. To do this, navigate to
⚠️ Make sure your API key is saved in a location where you can retrieve it later! You will need it in these next steps!
Navigate to your local version of this project. Then, in your command line, install the dependencies:
$ npm ci
The whole list of required variables to start the demo application is described in .env.example
file. The template for this .env file is available in the root folder.
After that, you can easily create a .env
file from the template by issuing the following command:
$ cp .env.example .env
Once this template is done, copying over (should be instantaneous), navigate to your .env
file, and paste your Bright API key as the value of the BRIGHT_TOKEN
variable.
BRIGHT_TOKEN = <your_API_key_here>
To initialize DB schema, you should execute a migration, as shown here:
$ npm run migration:up
Finally, perform this command in terminal to run the application:
$ npm start
Note: Alternatively, you can quickly run the SecTester SDK Demo app using Docker:
docker build -t sectester-js-demo-image . && docker run --name sectester-js-demo -p 3000:3000 -d sectester-js-demo-image
While having the application running, open a browser and type http://localhost:3000/api
, and hit enter.
You should see the Swagger UI page for that application that allows you to test the RESTFul CRUD API, like in the following screenshot:
If you need the JSON schema for any reason, such as for discovery purposes, it can be accessed at: http://localhost:3000/api-json
.
To explore the Swagger UI:
- Click on the
POST /users
endpoint - Click on the "Try it out" button
- Click on the blue "Execute" button
- Then you should see a view similar to the following, where you can see the JSON returned from the API:
Then you can start tests with SecTester against these endpoints as follows (make sure you use a new terminal window, as the original is still running the API for us!)
$ npm run test:sec
You will find tests written with SecTester in the
./test/sec
folder.
This can take a few minutes, and then you should see the result, like in the following screenshot:
FAIL test/sec/users.e2e-spec.ts (453.752 s)
/users
POST /
✓ should not have XSS (168279 ms)
GET /:id
✕ should not have SQLi (282227 ms)
● /users › GET /:id › should not have SQLi
IssueFound: Target is vulnerable
Issue in Bright UI: https://app.brightsec.com/scans/mKScKCEJRq2nvVkzEHUArB/issues/4rXuWAQTekbJfa9Rc7vHAX
Name: SQL Injection: Blind Boolean Based
Severity: High
Remediation:
If available, use structured mechanisms that automatically enforce the separation between data and code. These mechanisms may be able to provide the relevant quoting, encoding, and validation automatically, instead of relying on the developer to provide this capability at every point where output is generated. Process SQL queries using prepared statements, parameterized queries, or stored procedures. These features should accept parameters or variables and support strong typing. Do not dynamically construct and execute query strings within these features using 'exec' or similar functionality, since this may re-introduce the possibility of SQL injection
Details:
A SQL injection attack consists of insertion or 'injection' of a SQL query via the input data from the client to the application. A successful SQL injection exploit can read sensitive data from the database, modify database data (Insert/Update/Delete), execute administration operations on the database (such as shutdown the DBMS), recover the content of a given file present on the DBMS file system and in some cases issue commands to the operating system. SQL injection attacks are a type of injection attack, in which SQL commands are injected into data-plane input in order to effect the execution of predefined SQL commands, In a BLIND SQLi scenario there is no response data, but the application is still vulnerable via boolean-based (10=10) and other techniques.
Extra Details:
● Injection Points
Parameter: #1* (URI)
Type: boolean-based blind
Title: AND boolean-based blind - WHERE or HAVING clause
Payload: http://localhost:56774/users/1 AND 2028=2028
Database Banner: 'postgresql 14.3 on x86_64-pc-linux-musl, compiled by gcc (alpine 11.2.1_git20220219) 11.2.1 20220219, 64-bit'
References:
● https://cwe.mitre.org/data/definitions/89.html
● https://www.owasp.org/index.php/Blind_SQL_Injection
● https://brightsec.com/blog/blind-sql-injection/
at SecScan.assert (../packages/runner/src/lib/SecScan.ts:59:13)
at runMicrotasks (<anonymous>)
at SecScan.run (../packages/runner/src/lib/SecScan.ts:37:7)
at Object.<anonymous> (sec/users.e2e-spec.ts:71:7)
Test Suites: 1 failed, 1 total
Tests: 1 failed, 1 passed, 2 total
Snapshots: 0 total
Time: 453.805 s
Ran all test suites matching /test\/sec/i.
Now you will look under the hood to see how this all works. In the following example, we will test the app we just set up for any instances of SQL injection. Jest is provided as the testing framework, that provides assert functions and test-double utilities that help with mocking, spying, etc.
To start the webserver within the same process with tests, not in a remote environment or container, we use Nest.js testing utilities. You don’t have to use Nest.js, but it is what we chose for this project. The code is as follows:
import { UsersModule } from '../../src/users';
import config from '../../src/mikro-orm.config';
import { INestApplication } from '@nestjs/common';
import { Test, TestingModule } from '@nestjs/testing';
import { MikroOrmModule } from '@mikro-orm/nestjs';
describe('/users', () => {
let app!: INestApplication;
beforeAll(async () => {
const moduleFixture: TestingModule = await Test.createTestingModule({
imports: [UsersModule, MikroOrmModule.forRoot(config)]
}).compile();
app = moduleFixture.createNestApplication();
await app.init();
});
afterAll(() => app.close());
});
The @sectester/runner
package provides a set of utilities that allows scanning the demo application for vulnerabilities. Let's expand the previous example using the built-in SecRunner
class:
let runner!: SecRunner;
let app!: INestApplication;
// ...
beforeEach(async () => {
runner = new SecRunner({ hostname: 'app.brightsec.com' });
await runner.init();
});
afterEach(() => runner.clear());
To set up a runner, create a SecRunner
instance on the top of the file, passing a configuration as follows:
import { SecRunner } from '@sectester/runner';
const runner = new SecRunner({ hostname: 'app.brightsec.com' });
After that, you have to initialize a SecRunner
instance:
await runner.init();
The runner is now ready to perform your tests. To start scanning your endpoint, first, you have to create a SecScan
instance. We do this with runner.createScan
as shown in the example below.
Now, you will write and run your first unit test!
Let's verify the GET /users/:id
endpoint for SQLi:
describe('GET /:id', () => {
it('should not have SQLi', async () => {
await runner
.createScan({
tests: [TestType.SQLI]
})
.run({
method: 'GET',
url: `${baseUrl}/users/1`
});
});
});
This will raise an exception when the test fails, with remediation information and a deeper explanation of SQLi, right in your command line!
Let's look at another test for the POST /users
endpoint, this time for XSS.
describe('POST /', () => {
it('should not have XSS', async () => {
await runner
.createScan({
tests: [TestType.XSS]
})
.run({
method: 'POST',
url: `${baseUrl}/users`,
body: { firstName: 'Test', lastName: 'Test' }
});
});
});
As you can see, writing a new test for XSS follows the same pattern as SQLi.
Finally, to run a scan against the endpoint, you have to obtain a port to which the server listens. For that, we should adjust the example above just a bit:
let runner!: SecRunner;
let app!: INestApplication;
let baseUrl!: string;
beforeAll(async () => {
// ...
const server = app.getHttpServer();
server.listen(0);
const port = server.address().port;
const protocol = app instanceof Server ? 'https' : 'http';
baseUrl = `${protocol}://localhost:${port}`;
});
Now, you can use the baseUrl
to set up a target:
await scan.run({
method: 'GET',
url: `${baseUrl}/users/1`
});
By default, each found issue will cause the scan to stop. To control this behavior you can set a severity threshold using the threshold
method. Since SQLi (SQL injection) is considered to be high severity issue, we can pass Severity.HIGH
for stricter checks:
scan.threshold(Severity.HIGH);
To avoid long-running test, you can specify a timeout, to say how long to wait before aborting it:
scan.timeout(300000);
To make sure that Jest won't abort tests early, you should align a test timeout with a scan timeout as follows:
jest.setTimeout(300000);
To clarify an attack surface and speed up the test, we suggest making clear where to discover parameters according to the source code.
@Controller('users')
export class UsersController {
constructor(private readonly usersService: UsersService) {}
@Get(':id')
public findOne(@Param('id') id: number): Promise<User | null> {
return this.usersService.findOne(id);
}
}
For the example above, it should look like this:
const scan = runner.createScan({
tests: [TestType.SQLI],
attackParamLocations: [AttackParamLocation.PATH]
});
Finally, the test should look like this:
it('should not have SQLi', async () => {
await runner
.createScan({
tests: [TestType.SQLI],
attackParamLocations: [AttackParamLocation.PATH]
})
.threshold(Severity.MEDIUM)
.timeout(300000)
.run({
method: 'GET',
url: `${baseUrl}/users/1`
});
});
Here is a completed test/sec/users.e2e-spec.ts
file with all the tests and configuration set up.
import { UsersModule } from '../../src/users';
import config from '../../src/mikro-orm.config';
import { SecRunner } from '@sectester/runner';
import { AttackParamLocation, Severity, TestType } from '@sectester/scan';
import { INestApplication } from '@nestjs/common';
import { Test, TestingModule } from '@nestjs/testing';
import { ConfigModule } from '@nestjs/config';
import { MikroOrmModule } from '@mikro-orm/nestjs';
import { Server } from 'https';
describe('/users', () => {
const timeout = 300000;
jest.setTimeout(timeout);
let runner!: SecRunner;
let app!: INestApplication;
let baseUrl!: string;
beforeAll(async () => {
const moduleFixture: TestingModule = await Test.createTestingModule({
imports: [
UsersModule,
ConfigModule.forRoot(),
MikroOrmModule.forRoot(config)
]
}).compile();
app = moduleFixture.createNestApplication();
await app.init();
const server = app.getHttpServer();
server.listen(0);
const port = server.address().port;
const protocol = app instanceof Server ? 'https' : 'http';
baseUrl = `${protocol}://localhost:${port}`;
});
afterAll(() => app.close());
beforeEach(async () => {
runner = new SecRunner({ hostname: process.env.BRIGHT_HOSTNAME! });
await runner.init();
});
afterEach(() => runner.clear());
describe('POST /', () => {
it('should not have XSS', async () => {
await runner
.createScan({
tests: [TestType.XSS],
attackParamLocations: [AttackParamLocation.BODY]
})
.threshold(Severity.MEDIUM)
.timeout(timeout)
.run({
method: 'POST',
url: `${baseUrl}/users`,
body: { firstName: 'Test', lastName: 'Test' }
});
});
});
describe('GET /:id', () => {
it('should not have SQLi', async () => {
await runner
.createScan({
tests: [TestType.SQLI],
attackParamLocations: [AttackParamLocation.PATH]
})
.threshold(Severity.MEDIUM)
.timeout(timeout)
.run({
method: 'GET',
url: `${baseUrl}/users/1`
});
});
});
});
Full documentation can be found in the @sectester/runner
README.
Test name | Description | Usage in SecTester | Detectable vulnerabilities |
Amazon S3 Bucket Takeover | Tests for S3 buckets that no longer exist to prevent data breaches and malware distribution | amazon_s3_takeover |
- Amazon S3 Bucket Takeover |
Broken JWT Authentication | Tests for secure implementation of JSON Web Token (JWT) in the application | jwt |
- Broken JWT Authentication |
Broken SAML Authentication | Tests for secure implementation of SAML authentication in the application | broken_saml_auth |
- Broken SAML Authentication |
Brute Force Login | Tests for availability of commonly used credentials | brute_force_login |
- Brute Force Login |
Business Constraint Bypass | Tests if the limitation of number of retrievable items via an API call is configured properly | business_constraint_bypass |
- Business Constraint Bypass |
Client-Side XSS (DOM Cross-Site Scripting) |
Tests if various application DOM parameters are vulnerable to JavaScript injections | dom_xss |
- Reflective Cross-site scripting (rXSS) - Persistent Cross-site scripting (pXSS) |
Common Files Exposure | Tests if common files that should not be accessible are accessible | common_files |
- Exposed Common File |
Cookie Security Check | Tests if the application uses and implements cookies with secure attributes | cookie_security |
- Sensitive Cookie in HTTPS Session Without Secure Attribute - Sensitive Cookie Without HttpOnly Flag - Sensitive Cookie Weak Session ID |
Cross-Site Request Forgery (CSRF) | Tests application forms for vulnerable cross-site filling and submitting | csrf |
- Unauthorized Cross-Site Request Forgery (CSRF) - Authorized Cross-Site Request Forgery (CSRF) |
Cross-Site Scripting (XSS) | Tests if various application parameters are vulnerable to JavaScript injections | xss |
- Reflective Cross-Site Scripting (rXSS) - Persistent Cross-Site Scripting (pXSS) |
Common Vulnerability Exposure (CVEs) | Tests for known third-party common vulnerability exposures | cve_test |
- Common Vulnerability Exposure |
Default Login Location | Tests if login form location in the target application is easy to guess and accessible | default_login_location |
- Default Login Location |
Directory Listing | Tests if server-side directory listing is possible | directory_listing |
- Directory Listing |
Email Header Injection | Tests if it is possible to send emails to other addresses through the target application mailing server, which can lead to spam and phishing | email_injection |
- Email Header Injection |
Exposed AWS S3 Buckets Details (Open Buckets) |
Tests if exposed AWS S3 links lead to anonymous read access to the bucket | open_buckets |
- Exposed AWS S3 Buckets Details |
Exposed Database Details (Open Database) |
Tests if exposed database connection strings are open to public connections | open_buckets |
- Exposed Database Details - Exposed Database Connection String |
Full Path Disclosure (FPD) | Tests if various application parameters are vulnerable to exposure of errors that include full webroot path | full_path_disclosure |
- Full Path Disclosure |
Headers Security Check | Tests for proper Security Headers configuration | header_security |
- Misconfigured Security Headers - Missing Security Headers - Insecure Content Secure Policy Configuration |
HTML Injection | Tests if various application parameters are vulnerable to HTML injection | html_injection |
- HTML Injection |
Improper Assets Management | Tests if older or development versions of API endpoints are exposed and can be used to get unauthorized access to data and privileges | improper_asset_management |
- Improper Assets Management |
Insecure HTTP Method (HTTP Method Fuzzer) |
Tests enumeration of possible HTTP methods for vulnerabilities | http_method_fuzzing |
- Insecure HTTP Method |
Insecure TLS Configuration | Tests SSL/TLS ciphers and configurations for vulnerabilities | insecure_tls_configuration |
- Insecure TLS Configuration |
Known JavaScript Vulnerabilities (JavaScript Vulnerabilities Scanning) |
Tests for known JavaScript component vulnerabilities | retire_js |
- JavaScript Component with Known Vulnerabilities |
Known WordPress Vulnerabilities (WordPress Scan) |
Tests for known WordPress vulnerabilities and tries to enumerate a list of users | wordpress |
- WordPress Component with Known Vulnerabilities |
LDAP Injection | Tests if various application parameters are vulnerable to unauthorized LDAP access | ldapi |
- LDAP Injection - LDAP Error |
Local File Inclusion (LFI) | Tests if various application parameters are vulnerable to loading of unauthorized local system resources | lfi |
- Local File Inclusion (LFI) |
Mass Assignment | Tests if it is possible to create requests with additional parameters to gain privilege escalation | mass_assignment |
- Mass Assignment |
OS Command Injection | Tests if various application parameters are vulnerable to Operation System (OS) commands injection | osi |
- OS Command Injection |
Prototype Pollution | Tests if it is possible to inject properties into existing JavaScript objects | proto_pollution |
- Prototype Pollution |
Remote File Inclusion (RFI) | Tests if various application parameters are vulnerable to loading of unauthorized remote system resources | rfi |
- Remote File Inclusion (RFI) |
Secret Tokens Leak | Tests for exposure of secret API tokens or keys in the target application | secret_tokens |
- Secret Tokens Leak |
Server Side Template Injection (SSTI) | Tests if various application parameters are vulnerable to server-side code execution | ssti |
- Server Side Template Injection (SSTI) |
Server Side Request Forgery (SSRF) | Tests if various application parameters are vulnerable to internal resources access | ssrf |
- Server Side Request Forgery (SSRF) |
SQL Injection (SQLI) | SQL Injection tests vulnerable parameters for SQL database access | sqli |
- SQL Injection: Blind Boolean Based - SQL Injection: Blind Time Based - SQL Injection - SQL Database Error Message in Response |
Unrestricted File Upload | Tests if file upload mechanisms are validated properly and denies upload of malicious content | file_upload |
- Unrestricted File Upload |
Unsafe Date Range (Date Manipulation) |
Tests if date ranges are set and validated properly | date_manipulation |
- Unsafe Date Range |
Unsafe Redirect (Unvalidated Redirect) |
Tests if various application parameters are vulnerable to injection of a malicious link which can redirect a user without validation | unvalidated_redirect |
- Unsafe Redirect |
User ID Enumeration | Tests if it is possible to collect valid user ID data by interacting with the target application | id_enumeration |
- Enumerable Integer-Based ID |
Version Control System Data Leak | Tests if it is possible to access Version Control System (VCS) resources | version_control_systems |
- Version Control System Data Leak |
XML External Entity Injection | Tests if various XML parameters are vulnerable to XML parsing of unauthorized external entities | xxe |
- XML External Entity Injection |
You can integrate this library into any CI you use, for that you will need to add the BRIGHT_TOKEN
environment variable to your CI.
Then add the following to your GitHub actions configuration:
steps:
- name: Run sec tests
run: npm run test:sec
env:
BRIGHT_TOKEN: ${{ secrets.BRIGHT_TOKEN }}
BRIGHT_HOSTNAME: app.brightsec.com
For a full list of CI configuration examples, check out the docs below.
- Full documentation available at: https://docs.brightsec.com/
- Join our Discord channel and ask anything!
Please read contributing guidelines here.
Copyright © 2022 Bright Security.
This project is licensed under the MIT License - see the LICENSE file for details.