lighthouse-pulse/beacon_node/beacon_chain/test_harness
2019-03-11 15:18:45 +11:00
..
benches Do project-wide s/epoch_length/slots_per_epoch/g 2019-03-04 17:51:54 +11:00
specs Add transfer processing to BeaconChain 2019-03-07 17:23:11 +11:00
src Modify create_proof_of_possession, and verifying proof_of_possession in process_deposits 2019-03-11 15:18:45 +11:00
tests Update project tests to use new genesis structure 2019-03-11 11:52:16 +11:00
.gitignore Allow test_harness to load validators from file 2019-03-08 13:18:02 +11:00
Cargo.toml Allow test_harness to load validators from file 2019-03-08 13:18:02 +11:00
README.md Do project-wide s/epoch_length/slots_per_epoch/g 2019-03-04 17:51:54 +11:00

Test Harness

Provides a testing environment for the BeaconChain, Attester and BlockProposer objects.

This environment bypasses networking and client run-times and connects the Attester and Proposer directly to the BeaconChain via an Arc.

The BeaconChainHarness contains a single BeaconChain instance and many ValidatorHarness instances. All of the ValidatorHarness instances work to advance the BeaconChain by producing blocks and attestations.

The crate consists of a library and binary, examples for using both are described below.

YAML

Both the library and the binary are capable of parsing tests from a YAML file, in fact this is the sole purpose of the binary.

You can find YAML test cases here. An example is included below:

title: Validator Registry Tests
summary: Tests deposit and slashing effects on validator registry.
test_suite: validator_registry
fork: tchaikovsky
version: 1.0
test_cases:
  - config:
      slots_per_epoch: 64
      deposits_for_chain_start: 1000
      num_slots: 64
      skip_slots: [2, 3]
      deposits:
          # At slot 1, create a new validator deposit of 32 ETH.
        - slot: 1
          amount: 32
          # Trigger more deposits...
        - slot: 3
          amount: 32
        - slot: 5
          amount: 32
      proposer_slashings:
          # At slot 2, trigger a proposer slashing for validator #42.
        - slot: 2
          validator_index: 42
          # Trigger another slashing...
        - slot: 8
          validator_index: 13
      attester_slashings:
          # At slot 2, trigger an attester slashing for validators #11 and #12.
        - slot: 2
          validator_indices: [11, 12]
          # Trigger another slashing...
        - slot: 5
          validator_indices: [14]
    results:
      num_skipped_slots: 2
      states:
        - slot: 63
          num_validators: 1003
          slashed_validators: [11, 12, 13, 14, 42]
          exited_validators: []

Thanks to prsym for coming up with the base YAML format.

Notes

Wherever slot is used, it is actually the "slot height", or slots since genesis. This allows the tests to disregard the GENESIS_EPOCH.

Differences from Prysmatic's format

  1. The detail for deposits, proposer_slashings and attester_slashings is ommitted from the test specification. It assumed they should be valid objects.
  2. There is a states list in results that runs checks against any state specified by a slot number. This is in contrast to the variables in results that assume the last (highest) state should be inspected.

Reasoning

Respective reasonings for above changes:

  1. This removes the concerns of the actual object structure from the tests. This allows for more variation in the deposits/slashings objects without needing to update the tests. Also, it makes it makes it easier to create tests.
  2. This gives more fine-grained control over the tests. It allows for checking that certain events happened at certain times whilst making the tests only slightly more verbose.

Notes: it may be useful to add an extra field to each slashing type to indicate if it should be valid or not. It also may be useful to add an option for double-vote/surround-vote attester slashings. The amount field was left on deposits as it changes the behaviour of state significantly.

Binary Usage Example

Follow these steps to run as a binary:

  1. Navigate to the root of this crate (where this readme is located)
  2. Run $ cargo run --release -- --yaml examples/validator_registry.yaml

Note: the --release flag builds the binary without all the debugging instrumentation. The test is much faster built using --release. As is customary in cargo, the flags before -- are passed to cargo and the flags after are passed to the binary.

CLI Options

Lighthouse Test Harness Runner 0.0.1
Sigma Prime <contact@sigmaprime.io>
Runs `test_harness` using a YAML test_case.

USAGE:
    test_harness --log-level <LOG_LEVEL> --yaml <FILE>

FLAGS:
    -h, --help       Prints help information
    -V, --version    Prints version information

OPTIONS:
        --log-level <LOG_LEVEL>    Logging level. [default: debug]  [possible values: error, warn, info, debug, trace]
        --yaml <FILE>              YAML file test_case.

Library Usage Example

use test_harness::BeaconChainHarness;
use types::ChainSpec;

let validator_count = 8;
let spec = ChainSpec::few_validators();

let mut harness = BeaconChainHarness::new(spec, validator_count);

harness.advance_chain_with_block();

let chain = harness.chain_dump().unwrap();

// One block should have been built on top of the genesis block.
assert_eq!(chain.len(), 2);