This document is an extension to CONTRIBUTING and provides more details about the coding guidelines and requirements.
- Code must be well structured:
- packages must have a limited responsibility (different concerns can go to different packages),
- types must be easy to compose,
- think about maintainbility and testability.
- "Depend upon abstractions, [not] concretions".
- Try to limit the number of methods you are exposing. It's easier to expose something later than to hide it.
- Take advantage of
internal
package concept. - Follow agreed-upon design patterns and naming conventions.
- publicly-exposed functions are named logically, have forward-thinking arguments and return types.
- Avoid global variables and global configurators.
- Favor composable and extensible designs.
- Minimize code duplication.
- Limit third-party dependencies.
Performance:
- Avoid unnecessary operations or memory allocations.
Security:
- Pay proper attention to exploits involving:
- gas usage
- transaction verification and signatures
- malleability
- code must be always deterministic
- Thread safety. If some functionality is not thread-safe, or uses something that is not thread-safe, then clearly indicate the risk on each level.
Start the design by defining Acceptance Tests. The purpose of Acceptance Testing is to validate that the product being developed corresponds to the needs of the real users and is ready for launch. Hence we often talk about User Acceptance Test (UAT). It also gives a better understanding of the product and helps designing a right interface and API.
UAT should be revisited at each stage of the product development:
- Automated acceptance tests catch serious problems that unit or component test suites could never catch.
- Automated acceptance tests deliver business value the users are expecting as they test user scenarios.
- Automated acceptance tests executed and passed on every build help improve the software delivery process.
- Testers, developers, and customers need to work closely to create suitable automated acceptance test suites.
The best way to define AT is by starting from the user stories and think about all positive and negative scenarios a user can perform.
Product Developers should collaborate with stakeholders to define AT. Functional experts and business users are both needed for defining AT.
A good pattern for defining AT is listing scenarios with GIVEN-WHEN-THEN format where:
- GIVEN: A set of initial circumstances (e.g. bank balance)
- WHEN: Some event happens (e.g. customer attempts a transfer)
- THEN: The expected result as per the defined behavior of the system
In other words: we define a use case input, current state and the expected outcome. Example:
Feature: User trades stocks. Scenario: User requests a sell before close of trading
Given I have 100 shares of MSFT stock And I have 150 shares of APPL stock And the time is before close of trading When I ask to sell 20 shares of MSFT stock Then I should have 80 shares of MSFT stock And I should have 150 shares of APPL stock And a sell order for 20 shares of MSFT stock should have been executed
Reference: writing acceptance tests.
Acceptance tests are written in the Markdown format, using the scenario template described above, and be part of the specification (xx_test.md
file in spec directory). Example: (eco-credits/spec/06.test.md
)[https://github.com/regen-network/regen-ledger/blob/7297783577e6cd102c5093365b573163680f36a1/x/ecocredit/spec/06_tests.md]
Acceptance tests should be defined during the design phase or at an early stage of development. Moreover, they should be defined before writing a module architecture - it will clarify the purpose and usage of the software. Automated tests should cover all acceptance tests scenarios.
Make sure your code is well tested:
- Provide unit tests for every unit of your code if possible. Unit tests are expected to comprise 70%-80% of your tests.
- Describe the test scenarios you are implementing for integration tests.
- Create integration tests for queries and msgs.
- Use both test cases and property / fuzzy testing. We use the rapid Go library for property-based and fuzzy testing.
- Do not decrease code test coverage. Explain in a PR if test coverage is decreased.
We expect tests to use require
or assert
rather than t.Skip
or t.Fail
,
unless there is a reason to do otherwise.
When testing a function under a variety of different inputs, we prefer to use
table driven tests.
Table driven test error messages should follow the following format
<desc>, tc #<index>, i #<index>
.
<desc>
is an optional short description of whats failing, tc
is the
index within the test case table that is failing, and i
is when there
is a loop, exactly which iteration of the loop failed.
The idea is you should be able to see the
error message and figure out exactly what failed.
Here is an example check:
<some table>
for tcIndex, tc := range cases {
<some code>
resp, err := doSomething()
require.NoError(err)
require.Equal(t, tc.expected, resp, "should correctly perform X")
We are forming a QA team that will support the core Cosmos SDK team and collaborators by:
- Improving the Cosmos SDK QA Processes
- Improving automation in QA and testing
- Defining high-quality metrics
- Maintaining and improving testing frameworks (unit tests, integration tests, and functional tests)
- Defining test scenarios.
- Verifying user experience and defining a high quality.
- We want to have acceptance tests! Document and list acceptance lists that are implemented and identify acceptance tests that are still missing.
- Acceptance tests should be specified in
acceptance-tests
directory as Markdown files.
- Supporting other teams with testing frameworks, automation, and User Experience testing.
- Testing chain upgrades for every new breaking change.
- Defining automated tests that assure data integrity after an update.
Desired outcomes:
- QA team works with Development Team.
- QA is happening in parallel with Core Cosmos SDK development.
- Releases are more predictable.
- QA reports. Goal is to guide with new tasks and be one of the QA measures.
As a developer, you must help the QA team by providing instructions for User Experience (UX) and functional testing.
Once the AT are defined, the QA team will have an overview of the behavior a user can expect and:
- validate the user experience will be good
- validate the implementation conforms the acceptance tests
- by having a broader overview of the use cases, QA team should be able to define test suites and test data to efficiently automate Acceptance Tests and reuse the work.