172 lines
8.1 KiB
Markdown
172 lines
8.1 KiB
Markdown
# General test format
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This document defines the YAML format and structure used for ETH 2.0 testing.
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## ToC
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* [About](#about)
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* [Glossary](#glossary)
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* [Test format philosophy](#test-format-philosophy)
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* [Test Suite](#test-suite)
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* [Config](#config)
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* [Fork-timeline](#fork-timeline)
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* [Config sourcing](#config-sourcing)
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* [Test structure](#test-structure)
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## About
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Ethereum 2.0 uses YAML as the format for all cross client tests. This document describes at a high level the general format to which all test files should conform.
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The particular formats of specific types of tests (test suites) are defined in separate documents.
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## Glossary
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- `generator`: a program that outputs one or more `suite` files.
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- A generator should only output one `type` of test.
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- A generator is free to output multiple `suite` files, optionally with different `handler`s.
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- `type`: the specialization of one single `generator`.
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- `suite`: a YAML file with:
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- a header: describes the `suite`, and defines what the `suite` is for
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- a list of test cases
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- `runner`: where a generator is a *"producer"*, this is the *"consumer"*.
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- A `runner` focuses on *only one* `type`, and each type has *only one* `runner`.
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- `handler`: a `runner` may be too limited sometimes, you may have a `suite` with a specific focus that requires a different format.
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To facilitate this, you specify a `handler`: the runner can deal with the format by using the specified handler.
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Using a `handler` in a `runner` is optional.
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- `case`: a test case, an entry in the `test_cases` list of a `suite`. A case can be anything in general,
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but its format should be well-defined in the documentation corresponding to the `type` (and `handler`).\
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A test has the same exact configuration and fork context as the other entries in the `case` list of its `suite`.
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- `forks_timeline`: a fork timeline definition, a YAML file containing a key for each fork-name, and an epoch number as value.
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## Test format philosophy
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### Config design
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After long discussion, the following types of configured constants were identified:
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- Never changing: genesis data
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- Changing, but reliant on old value: e.g. an epoch time may change, but if you want to do the conversion
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`(genesis data, timestamp) -> epoch number` you end up needing both constants.
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- Changing, but kept around during fork transition: finalization may take a while,
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e.g. an executable has to deal with new deposits and old deposits at the same time. Another example may be economic constants.
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- Additional, back-wards compatible: new constants are introduced for later phases
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- Changing: there is a very small chance some constant may really be *replaced*.
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In this off-chance, it is likely better to include it as an additional variable,
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and some clients may simply stop supporting the old one, if they do not want to sync from genesis.
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Based on these types of changes, we model the config as a list of key value pairs,
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that only grows with every fork (they may change in development versions of forks however, git manages this).
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With this approach, configurations are backwards compatible (older clients ignore unknown variables), and easy to maintain.
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### Fork config design
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There are two types of fork-data:
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1) timeline: when does a fork take place?
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2) coverage: what forks are covered by a test?
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The first is neat to have as a separate form: we prevent duplication, and can run with different presets
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(e.g. fork timeline for a minimal local test, for a public testnet, or for mainnet)
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The second is still somewhat ambiguous: some tests may want cover multiple forks, and can do so in different ways:
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- run one test, transitioning from one to the other
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- run the same test for both
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- run a test for every transition from one fork to the other
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- more
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There is a common factor here however: the options are exclusive, and give a clear idea on what test suites need to be ran to cover testing for a specific fork.
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The way this list of forks is interpreted, is up to the test-runner:
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State-transition test suites may want to just declare forks that are being covered in the test suite,
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whereas shuffling test suites may want to declare a list of forks to test the shuffling algorithm for individually.
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### Test completeness
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Tests should be independent of any sync-data. If one wants to run a test, the input data should be available from the YAML.
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The aim is to provide clients with a well-defined scope of work to run a particular set of test-suites.
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- Clients that are complete are expected to contribute to testing, seeking for better resources to get conformance with the spec, and other clients.
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- Clients that are not complete in functionality can choose to ignore suites that use certain test-runners, or specific handlers of these test-runners.
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- Clients that are on older versions can test there work based on older releases of the generated tests, and catch up with newer releases when possible.
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## Test Suite
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```
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title: <required, string, short, one line> -- Display name for the test suite
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summary: <required, string, average, 1-3 lines> -- Summarizes the test suite
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forks_timeline: <required, string, reference to a fork definition file, without extension> -- Used to determine the forking timeline
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forks: <required, list of strings> -- Runner decides what to do: run for each fork, or run for all at once, each fork transition, etc.
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- ... <required, string, first the fork name, then the spec version>
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config: <required, string, reference to a config file, without extension> -- Used to determine which set of constants to run (possibly compile time) with
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runner: <required, string, no spaces, python-like naming format> *MUST be consistent with folder structure*
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handler: <optional, string, no spaces, python-like naming format> *MUST be consistent with folder structure*
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test_cases: <list, values being maps defining a test case each>
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...
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```
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## Config
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A configuration is a separate YAML file.
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Separation of configuration and tests aims to:
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- Prevent duplication of configuration
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- Make all tests easy to upgrade (e.g. when a new config constant is introduced)
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- Clearly define which constants to use
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- Shareable between clients, for cross-client short or long lived testnets
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- Minimize the amounts of different constants permutations to compile as a client.
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Note: Some clients prefer compile-time constants and optimizations.
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They should compile for each configuration once, and run the corresponding tests per build target.
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The format is described in `configs/constant_presets`.
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## Fork-timeline
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A fork timeline is (preferably) loaded in as a configuration object into a client, as opposed to the constants configuration:
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- we do not allocate or optimize any code based on epoch numbers
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- when we transition from one fork to the other, it is preferred to stay online.
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- we may decide on an epoch number for a fork based on external events (e.g. Eth1 log event),
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a client should be able to activate a fork dynamically.
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The format is described in `configs/fork_timelines`.
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## Config sourcing
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The constants configurations are located in:
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```
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<specs repo root>/configs/constant_presets/<config name>.yaml
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```
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And copied by CI for testing purposes to:
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```
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<tests repo root>/configs/constant_presets/<config name>.yaml
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```
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The fork timelines are located in:
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```
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<specs repo root>/configs/fork_timelines/<timeline name>.yaml
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```
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And copied by CI for testing purposes to:
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```
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<tests repo root>/configs/fork_timelines/<timeline name>.yaml
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```
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## Test structure
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To prevent parsing of hundreds of different YAML files to test a specific test type,
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or even more specific, just a handler, tests should be structured in the following nested form:
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```
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. <--- root of eth2.0 tests repository
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├── bls <--- collection of handler for a specific test-runner, example runner: "bls"
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│ ├── signing <--- collection of test suites for a specific handler, example handler: "signing". If no handler, use a dummy folder "main"
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│ │ ├── sign_msg.yml <--- an entry list of test suites
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│ │ ... <--- more suite files (optional)
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│ ... <--- more handlers
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... <--- more test types
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```
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