226 lines
11 KiB
Markdown
226 lines
11 KiB
Markdown
# General test format
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This document defines the YAML format and structure used for Eth2 testing.
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## Table of contents
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<!-- TOC -->
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* [About](#about)
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+ [Test-case formats](#test-case-formats)
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* [Glossary](#glossary)
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* [Test format philosophy](#test-format-philosophy)
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+ [Config design](#config-design)
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+ [Test completeness](#test-completeness)
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* [Test structure](#test-structure)
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+ [`<config name>/`](#--config-name---)
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+ [`<fork or phase name>/`](#--fork-or-phase-name---)
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+ [`<test runner name>/`](#--test-runner-name---)
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+ [`<test handler name>/`](#--test-handler-name---)
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+ [`<test suite name>/`](#--test-suite-name---)
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+ [`<test case>/`](#--test-case---)
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+ [`<output part>`](#--output-part--)
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- [Special output parts](#special-output-parts)
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* [`meta.yaml`](#-metayaml-)
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* [Config](#config)
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* [Config sourcing](#config-sourcing)
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* [Note for implementers](#note-for-implementers)
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<!-- /TOC -->
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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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### Test-case formats
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The particular formats of specific types of tests (test suites) are defined in separate documents.
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Test formats:
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- [`bls`](./bls/README.md)
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- [`epoch_processing`](./epoch_processing/README.md)
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- [`genesis`](./genesis/README.md)
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- [`operations`](./operations/README.md)
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- [`sanity`](./sanity/README.md)
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- [`shuffling`](./shuffling/README.md)
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- [`ssz_generic`](./ssz_generic/README.md)
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- [`ssz_static`](./ssz_static/README.md)
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- More formats are planned, see tracking issues for CI/testing
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## Glossary
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- `generator`: a program that outputs one or more test-cases, each organized into a `config > runner > handler > suite` hierarchy.
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- `config`: tests are grouped by configuration used for spec presets. In addition to the standard configurations,
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`general` may be used as a catch-all for tests not restricted to one configuration. (E.g. BLS).
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- `type`: the specialization of one single `generator`. E.g. epoch processing.
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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 set of tests 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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- `suite`: a directory containing test cases that are coherent. Each `suite` under the same `handler` shares the same format.
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This is an organizational/cosmetic hierarchy layer.
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- `case`: a test case, a directory in 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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- `case part`: a test case consists of different files, possibly in different formats, to facilitate the specific test case format better.
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Optionally, a `meta.yaml` is included to declare meta-data for the test, e.g. BLS requirements.
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## Test format philosophy
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### Config design
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The configuration constant types are:
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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, backwards 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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The change of functionality goes through a phase of deprecation of the old constant, and eventually only the new constant is kept around in the config (when old state is not supported anymore).
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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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### 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 their work based on older releases of the generated tests, and catch up with newer releases when possible.
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## Test structure
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```
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File path structure:
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tests/<config name>/<fork or phase name>/<test runner name>/<test handler name>/<test suite name>/<test case>/<output part>
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```
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### `<config name>/`
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Configs are upper level. Some clients want to run minimal first, and useful for sanity checks during development too.
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As a top level dir, it is not duplicated, and the used config can be copied right into this directory as reference.
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### `<fork or phase name>/`
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This would be: "phase0", "altair", etc. Each introduces new tests, and modifies any tests that change:
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some tests of earlier forks repeat with updated state data.
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### `<test runner name>/`
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The well known bls/shuffling/ssz_static/operations/epoch_processing/etc. Handlers can change the format, but there is a general target to test.
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### `<test handler name>/`
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Specialization within category. All suites in here will have the same test case format.
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Using a `handler` in a `runner` is optional. A `core` (or other generic) handler may be used if the `runner` does not have different formats.
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### `<test suite name>/`
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Suites are split up. Suite size (i.e. the amount of tests) does not change the maximum memory requirement, as test cases can be loaded one by one.
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This also makes filtered sets of tests fast and easy to load.
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### `<test case>/`
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Cases are split up too. This enables diffing of parts of the test case, tracking changes per part, while still using LFS. Also enables different formats for some parts.
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### `<output part>`
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These files allow for custom formats for some parts of the test. E.g. something encoded in SSZ.
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Or to avoid large files, the SSZ can be compressed with Snappy.
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E.g. `pre.ssz_snappy`, `deposit.ssz_snappy`, `post.ssz_snappy`.
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Diffing a `pre.ssz_snappy` and `post.ssz_snappy` provides all the information for testing, when decompressed and decoded.
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Then the difference between pre and post can be compared to anything that changes the pre state, e.g. `deposit.ssz_snappy`
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YAML is generally used for test metadata, and for tests that do not use SSZ: e.g. shuffling and BLS tests.
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In this case, there is no point in adding special SSZ types. And the size and efficiency of YAML is acceptable.
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#### Common output formats
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Between all types of tests, a few formats are common:
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- **`.yaml`**: A YAML file containing structured data to describe settings or test contents.
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- **`.ssz`**: A file containing raw SSZ-encoded data. Previously widely used in tests, but replaced with compressed variant.
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- **`.ssz_snappy`**: Like `.ssz`, but compressed with Snappy block compression.
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Snappy block compression is already applied to SSZ in Eth2 gossip, available in client implementations, and thus chosen as compression method.
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#### Special output parts
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##### `meta.yaml`
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If present (it is optional), the test is enhanced with extra data to describe usage. Specialized data is described in the documentation of the specific test format.
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Common data is documented here:
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Some test-case formats share some common key-value pair patterns, and these are documented here:
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```
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bls_setting: int -- optional, can have 3 different values:
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0: (default, applies if key-value pair is absent). Free to choose either BLS ON or OFF.
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Tests are generated with valid BLS data in this case,
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but there is no change of outcome when running the test if BLS is ON or OFF.
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1: known as "BLS required" - if the test validity is strictly dependent on BLS being ON
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2: known as "BLS ignored" - if the test validity is strictly dependent on BLS being OFF
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reveal_deadlines_setting: -- optional, can have 2 different values:
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0: default, `process_reveal_deadlines` is ON.
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1: `process_reveal_deadlines` is OFF.
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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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- Be easily shareable between clients, for cross-client short- or long-lived testnets
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- Minimize the amount 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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- Include constants to coordinate forking with
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The format is described in [`/configs`](../../configs/README.md#format).
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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/<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>/tests/<config name>/<config name>.yaml
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```
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The first `<config name>` is a directory, which contains exactly all tests that make use of the given config.
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## Note for implementers
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The basic pattern for test-suite loading and running is:
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1. For a specific config, load it first (and only need to do so once),
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then continue with the tests defined in the config folder.
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2. Select a fork. Repeat for each fork if running tests for multiple forks.
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3. Select the category and specialization of interest (e.g. `operations > deposits`). Again, repeat for each if running all.
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4. Select a test suite. Or repeat for each.
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5. Select a test case. Or repeat for each.
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6. Load the parts of the case. And `meta.yaml` if present.
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7. Run the test, as defined by the test format.
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Step 1 may be a step with compile time selection of a configuration, if desired for optimization.
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The base requirement is just to use the same set of constants, independent of the loading process.
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