0g-chain/x/incentive/simulation/genesis.go

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package simulation
import (
"fmt"
"math/rand"
"time"
"github.com/cosmos/cosmos-sdk/codec"
sdk "github.com/cosmos/cosmos-sdk/types"
"github.com/cosmos/cosmos-sdk/types/module"
authexported "github.com/cosmos/cosmos-sdk/x/auth/exported"
"github.com/cosmos/cosmos-sdk/x/simulation"
"github.com/kava-labs/kava/x/incentive/types"
)
var (
CollateralDenoms = [3]string{"bnb", "xrp", "btc"}
RewardDenom = "ukava"
MaxTotalAssetReward = sdk.NewInt(1000000000)
)
// RandomizedGenState generates a random GenesisState for incentive module
func RandomizedGenState(simState *module.SimulationState) {
params := genParams(simState.Rand)
rewardPeriods := genRewardPeriods(simState.Rand, simState.GenTimestamp, params.Rewards)
claimPeriods := genClaimPeriods(rewardPeriods)
claimPeriodIDs := genNextClaimPeriodIds(claimPeriods)
// New genesis state holds valid, linked reward periods, claim periods, and claim period IDs
incentiveGenesis := types.NewGenesisState(params, types.DefaultPreviousBlockTime,
rewardPeriods, claimPeriods, types.Claims{}, claimPeriodIDs)
if err := incentiveGenesis.Validate(); err != nil {
panic(err)
}
fmt.Printf("Selected randomly generated %s parameters:\n%s\n", types.ModuleName, codec.MustMarshalJSONIndent(simState.Cdc, incentiveGenesis))
simState.GenState[types.ModuleName] = simState.Cdc.MustMarshalJSON(incentiveGenesis)
}
// genParams generates random rewards and is active by default
func genParams(r *rand.Rand) types.Params {
params := types.NewParams(true, genRewards(r))
if err := params.Validate(); err != nil {
panic(err)
}
return params
}
// genRewards generates rewards for each specified collateral type
func genRewards(r *rand.Rand) types.Rewards {
var rewards types.Rewards
for _, denom := range CollateralDenoms {
active := true
// total reward is in range (half max total reward, max total reward)
amount := simulation.RandIntBetween(r, int(MaxTotalAssetReward.Int64()/2), int(MaxTotalAssetReward.Int64()))
totalRewards := sdk.NewInt64Coin(RewardDenom, int64(amount))
// generate a random number of hours between 6-48 to use for reward's times
numbHours := simulation.RandIntBetween(r, 6, 48)
duration := time.Duration(time.Hour * time.Duration(numbHours))
timeLock := time.Duration(time.Hour * time.Duration(numbHours/2)) // half as long as duration
claimDuration := time.Hour * time.Duration(numbHours*2) // twice as long as duration
reward := types.NewReward(active, denom, totalRewards, duration, timeLock, claimDuration)
rewards = append(rewards, reward)
}
return rewards
}
// genRewardPeriods generates chronological reward periods for each given reward type
func genRewardPeriods(r *rand.Rand, timestamp time.Time, rewards types.Rewards) types.RewardPeriods {
var rewardPeriods types.RewardPeriods
for _, reward := range rewards {
rewardPeriodStart := timestamp
for i := 10; i >= simulation.RandIntBetween(r, 2, 9); i-- {
// Set up reward period parameters
start := rewardPeriodStart
end := start.Add(reward.Duration).UTC()
baseRewardAmount := reward.AvailableRewards.Amount.Quo(sdk.NewInt(100)) // base period reward is 1/100 total reward
// Earlier periods have larger rewards
amount := sdk.NewCoin(reward.Denom, baseRewardAmount.Mul(sdk.NewInt(int64(i))))
claimEnd := end.Add(reward.ClaimDuration)
claimTimeLock := reward.TimeLock
// Create reward period and append to array
rewardPeriod := types.NewRewardPeriod(reward.Denom, start, end, amount, claimEnd, claimTimeLock)
rewardPeriods = append(rewardPeriods, rewardPeriod)
// Update start time of next reward period
rewardPeriodStart = end
}
}
return rewardPeriods
}
// genClaimPeriods loads valid claim periods for an array of reward periods
func genClaimPeriods(rewardPeriods types.RewardPeriods) types.ClaimPeriods {
denomRewardPeriodsCount := make(map[string]uint64)
var claimPeriods types.ClaimPeriods
for _, rewardPeriod := range rewardPeriods {
// Increment reward period count for this denom (this is our claim period's ID)
denom := rewardPeriod.Denom
numbRewardPeriods := denomRewardPeriodsCount[denom] + 1
denomRewardPeriodsCount[denom] = numbRewardPeriods
// Set end and timelock from the associated reward period
end := rewardPeriod.ClaimEnd
claimTimeLock := rewardPeriod.ClaimTimeLock
// Create the new claim period for this reward period
claimPeriod := types.NewClaimPeriod(denom, numbRewardPeriods, end, claimTimeLock)
claimPeriods = append(claimPeriods, claimPeriod)
}
return claimPeriods
}
// genNextClaimPeriodIds returns an array of the most recent claim period IDs for each denom
func genNextClaimPeriodIds(cps types.ClaimPeriods) types.GenesisClaimPeriodIDs {
// Build a map of the most recent claim periods by denom
mostRecentClaimPeriodByDenom := make(map[string]uint64)
for _, cp := range cps {
if cp.ID > mostRecentClaimPeriodByDenom[cp.Denom] {
mostRecentClaimPeriodByDenom[cp.Denom] = cp.ID
}
}
// Write map contents to an array of GenesisClaimPeriodIDs
var claimPeriodIDs types.GenesisClaimPeriodIDs
for key, value := range mostRecentClaimPeriodByDenom {
claimPeriodID := types.GenesisClaimPeriodID{Denom: key, ID: value}
claimPeriodIDs = append(claimPeriodIDs, claimPeriodID)
}
return claimPeriodIDs
}
// In a list of accounts, replace the first account found with the same address. If not found, append the account.
func replaceOrAppendAccount(accounts []authexported.GenesisAccount, acc authexported.GenesisAccount) []authexported.GenesisAccount {
newAccounts := accounts
for i, a := range accounts {
if a.GetAddress().Equals(acc.GetAddress()) {
newAccounts[i] = acc
return newAccounts
}
}
return append(newAccounts, acc)
}