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// Copyright (C) 2019-2021 Algorand, Inc.
// This file is part of go-algorand
//
// go-algorand is free software: you can redistribute it and/or modify
// it under the terms of the GNU Affero General Public License as
// published by the Free Software Foundation, either version 3 of the
// License, or (at your option) any later version.
//
// go-algorand is distributed in the hope that it will be useful,
// but WITHOUT ANY WARRANTY; without even the implied warranty of
// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
// GNU Affero General Public License for more details.
//
// You should have received a copy of the GNU Affero General Public License
// along with go-algorand. If not, see <https://www.gnu.org/licenses/>.
package committee
import (
"io"
"math/rand"
"testing"
"github.com/algorand/go-algorand/config"
"github.com/algorand/go-algorand/crypto"
"github.com/algorand/go-algorand/data/basics"
"github.com/algorand/go-algorand/data/transactions"
"github.com/algorand/go-algorand/protocol"
)
type selectionParameterFn func(addr basics.Address) (bool, BalanceRecord, Seed, basics.MicroAlgos)
type selectionParameterListFn func(addr []basics.Address) (bool, []BalanceRecord, Seed, basics.MicroAlgos)
var proto = config.Consensus[protocol.ConsensusCurrentVersion]
func newAccount(t testing.TB, gen io.Reader, latest basics.Round, keyBatchesForward uint) (basics.Address, *crypto.SignatureSecrets, *crypto.VrfPrivkey, *crypto.OneTimeSignatureSecrets) {
var seed crypto.Seed
gen.Read(seed[:])
s := crypto.GenerateSignatureSecrets(seed)
_, v := crypto.VrfKeygenFromSeed(seed)
o := crypto.GenerateOneTimeSignatureSecrets(basics.OneTimeIDForRound(latest, proto.DefaultKeyDilution).Batch, uint64(keyBatchesForward))
addr := basics.Address(s.SignatureVerifier)
return addr, s, &v, o
}
func signTx(s *crypto.SignatureSecrets, t transactions.Transaction) transactions.SignedTxn {
return t.Sign(s)
}
func testingenv(t testing.TB, numAccounts, numTxs int) (selectionParameterFn, selectionParameterListFn, basics.Round, []basics.Address, []*crypto.SignatureSecrets, []*crypto.VrfPrivkey, []*crypto.OneTimeSignatureSecrets, []transactions.SignedTxn) {
return testingenvMoreKeys(t, numAccounts, numTxs, uint(5))
}
func testingenvMoreKeys(t testing.TB, numAccounts, numTxs int, keyBatchesForward uint) (selectionParameterFn, selectionParameterListFn, basics.Round, []basics.Address, []*crypto.SignatureSecrets, []*crypto.VrfPrivkey, []*crypto.OneTimeSignatureSecrets, []transactions.SignedTxn) {
P := numAccounts // n accounts
TXs := numTxs // n txns
maxMoneyAtStart := 100000 // max money start
minMoneyAtStart := 10000 // max money start
transferredMoney := 100 // max money/txn
maxFee := 10 // max maxFee/txn
E := basics.Round(50) // max round
// generate accounts
genesis := make(map[basics.Address]basics.AccountData)
gen := rand.New(rand.NewSource(2))
addrs := make([]basics.Address, P)
secrets := make([]*crypto.SignatureSecrets, P)
vrfSecrets := make([]*crypto.VrfPrivkey, P)
otSecrets := make([]*crypto.OneTimeSignatureSecrets, P)
proto := config.Consensus[protocol.ConsensusCurrentVersion]
lookback := basics.Round(2*proto.SeedRefreshInterval + proto.SeedLookback + 1)
var total basics.MicroAlgos
for i := 0; i < P; i++ {
addr, sigSec, vrfSec, otSec := newAccount(t, gen, lookback, keyBatchesForward)
addrs[i] = addr
secrets[i] = sigSec
vrfSecrets[i] = vrfSec
otSecrets[i] = otSec
startamt := uint64(minMoneyAtStart + (gen.Int() % (maxMoneyAtStart - minMoneyAtStart)))
short := addr
genesis[short] = basics.AccountData{
Status: basics.Online,
MicroAlgos: basics.MicroAlgos{Raw: startamt},
SelectionID: vrfSec.Pubkey(),
VoteID: otSec.OneTimeSignatureVerifier,
}
total.Raw += startamt
}
var seed Seed
rand.Read(seed[:])
tx := make([]transactions.SignedTxn, TXs)
for i := 0; i < TXs; i++ {
send := gen.Int() % P
recv := gen.Int() % P
saddr := addrs[send]
raddr := addrs[recv]
amt := basics.MicroAlgos{Raw: uint64(gen.Int() % transferredMoney)}
fee := basics.MicroAlgos{Raw: uint64(gen.Int() % maxFee)}
t := transactions.Transaction{
Type: protocol.PaymentTx,
Header: transactions.Header{
Sender: saddr,
Fee: fee,
FirstValid: 0,
LastValid: E,
Note: make([]byte, 4),
},
PaymentTxnFields: transactions.PaymentTxnFields{
Receiver: raddr,
Amount: amt,
},
}
rand.Read(t.Note)
tx[i] = t.Sign(secrets[send])
}
selParams := func(addr basics.Address) (bool, BalanceRecord, Seed, basics.MicroAlgos) {
data, ok := genesis[addr]
if !ok {
return false, BalanceRecord{}, Seed{}, basics.MicroAlgos{Raw: 0}
}
return true, BalanceRecord{Addr: addr, AccountData: data}, seed, total
}
selParamsList := func(addrs []basics.Address) (ok bool, records []BalanceRecord, seed Seed, total basics.MicroAlgos) {
records = make([]BalanceRecord, len(addrs))
for i, addr := range addrs {
var record BalanceRecord
ok, record, seed, total = selParams(addr)
if !ok {
return false, nil, Seed{}, basics.MicroAlgos{Raw: 0}
}
records[i] = record
}
ok = true
return
}
return selParams, selParamsList, lookback, addrs, secrets, vrfSecrets, otSecrets, tx
}
/* TODO deprecate these types after they have been removed successfully */
type (
// Step is a sequence number denoting distinct stages in Algorand
Step uint64
// Period is used to track progress with a given round in the protocol
Period uint64
// RoundPeriod represents a specific Period in a specific Round of the protocol
RoundPeriod struct {
basics.Round
Period
}
)
// An AgreementSelector is the input used to define
// proposers and members of voting committees.
type AgreementSelector struct {
Seed Seed `codec:"seed"`
Round basics.Round `codec:"rnd"`
Period Period `codec:"per"`
Step Step `codec:"step"`
}
// ToBeHashed implements the crypto.Hashable interface.
func (sel AgreementSelector) ToBeHashed() (protocol.HashID, []byte) {
return protocol.AgreementSelector, protocol.EncodeReflect(&sel)
}
// CommitteeSize returns the size of the committee,
// which is determined by AgreementSelector.Step.
func (sel AgreementSelector) CommitteeSize(proto config.ConsensusParams) uint64 {
return sel.Step.CommitteeSize(proto)
}
// Algorand 2.0 steps
const (
Propose Step = iota
Soft
Cert
Next
)
// CommitteeSize returns the size of the committee required for the Step
func (s Step) CommitteeSize(proto config.ConsensusParams) uint64 {
switch s {
case Propose:
return proto.NumProposers
case Soft:
return proto.SoftCommitteeSize
case Cert:
return proto.CertCommitteeSize
default:
return proto.NextCommitteeSize
}
}
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