package lite import ( "time" crypto "github.com/tendermint/go-crypto" "github.com/tendermint/tendermint/types" ) // ValKeys is a helper for testing. // // It lets us simulate signing with many keys, either ed25519 or secp256k1. // The main use case is to create a set, and call GenCommit // to get properly signed header for testing. // // You can set different weights of validators each time you call // ToValidators, and can optionally extend the validator set later // with Extend or ExtendSecp type ValKeys []crypto.PrivKey // GenValKeys produces an array of private keys to generate commits. func GenValKeys(n int) ValKeys { res := make(ValKeys, n) for i := range res { res[i] = crypto.GenPrivKeyEd25519().Wrap() } return res } // Change replaces the key at index i. func (v ValKeys) Change(i int) ValKeys { res := make(ValKeys, len(v)) copy(res, v) res[i] = crypto.GenPrivKeyEd25519().Wrap() return res } // Extend adds n more keys (to remove, just take a slice). func (v ValKeys) Extend(n int) ValKeys { extra := GenValKeys(n) return append(v, extra...) } // GenSecpValKeys produces an array of secp256k1 private keys to generate commits. func GenSecpValKeys(n int) ValKeys { res := make(ValKeys, n) for i := range res { res[i] = crypto.GenPrivKeySecp256k1().Wrap() } return res } // ExtendSecp adds n more secp256k1 keys (to remove, just take a slice). func (v ValKeys) ExtendSecp(n int) ValKeys { extra := GenSecpValKeys(n) return append(v, extra...) } // ToValidators produces a list of validators from the set of keys // The first key has weight `init` and it increases by `inc` every step // so we can have all the same weight, or a simple linear distribution // (should be enough for testing). func (v ValKeys) ToValidators(init, inc int64) *types.ValidatorSet { res := make([]*types.Validator, len(v)) for i, k := range v { res[i] = types.NewValidator(k.PubKey(), init+int64(i)*inc) } return types.NewValidatorSet(res) } // signHeader properly signs the header with all keys from first to last exclusive. func (v ValKeys) signHeader(header *types.Header, first, last int) *types.Commit { votes := make([]*types.Vote, len(v)) // we need this list to keep the ordering... vset := v.ToValidators(1, 0) // fill in the votes we want for i := first; i < last; i++ { vote := makeVote(header, vset, v[i]) votes[vote.ValidatorIndex] = vote } res := &types.Commit{ BlockID: types.BlockID{Hash: header.Hash()}, Precommits: votes, } return res } func makeVote(header *types.Header, vals *types.ValidatorSet, key crypto.PrivKey) *types.Vote { addr := key.PubKey().Address() idx, _ := vals.GetByAddress(addr) vote := &types.Vote{ ValidatorAddress: addr, ValidatorIndex: idx, Height: header.Height, Round: 1, Type: types.VoteTypePrecommit, BlockID: types.BlockID{Hash: header.Hash()}, } // Sign it signBytes := types.SignBytes(header.ChainID, vote) vote.Signature = key.Sign(signBytes) return vote } // Silences warning that vals can also be merkle.Hashable // nolint: interfacer func genHeader(chainID string, height int, txs types.Txs, vals *types.ValidatorSet, appHash []byte) *types.Header { return &types.Header{ ChainID: chainID, Height: height, Time: time.Now(), NumTxs: len(txs), // LastBlockID // LastCommitHash ValidatorsHash: vals.Hash(), DataHash: txs.Hash(), AppHash: appHash, } } // GenCommit calls genHeader and signHeader and combines them into a Commit. func (v ValKeys) GenCommit(chainID string, height int, txs types.Txs, vals *types.ValidatorSet, appHash []byte, first, last int) Commit { header := genHeader(chainID, height, txs, vals, appHash) check := Commit{ Header: header, Commit: v.signHeader(header, first, last), } return check } // GenFullCommit calls genHeader and signHeader and combines them into a Commit. func (v ValKeys) GenFullCommit(chainID string, height int, txs types.Txs, vals *types.ValidatorSet, appHash []byte, first, last int) FullCommit { header := genHeader(chainID, height, txs, vals, appHash) commit := Commit{ Header: header, Commit: v.signHeader(header, first, last), } return NewFullCommit(commit, vals) }