status-go/protocol/communities/permissioned_balances.go

285 lines
9.0 KiB
Go

package communities
import (
"context"
"math/big"
"strconv"
"github.com/pkg/errors"
gethcommon "github.com/ethereum/go-ethereum/common"
"github.com/status-im/status-go/eth-node/types"
"github.com/status-im/status-go/protocol/protobuf"
"github.com/status-im/status-go/services/wallet/bigint"
"github.com/status-im/status-go/services/wallet/thirdparty"
)
type PermissionedBalance struct {
Type protobuf.CommunityTokenType `json:"type"`
Symbol string `json:"symbol"`
Name string `json:"name"`
Amount *bigint.BigInt `json:"amount"`
Decimals uint64 `json:"decimals"`
}
func calculatePermissionedBalancesERC20(
accountAddresses []gethcommon.Address,
balances BalancesByChain,
tokenPermissions []*CommunityTokenPermission,
) map[gethcommon.Address]map[string]*PermissionedBalance {
res := make(map[gethcommon.Address]map[string]*PermissionedBalance)
// Set with composite key (chain ID + wallet address + contract address) to
// store if we already processed the balance.
usedBalances := make(map[string]bool)
for _, permission := range tokenPermissions {
for _, criteria := range permission.TokenCriteria {
if criteria.Type != protobuf.CommunityTokenType_ERC20 {
continue
}
for _, accountAddress := range accountAddresses {
for chainID, hexContractAddress := range criteria.ContractAddresses {
usedKey := strconv.FormatUint(chainID, 10) + "-" + accountAddress.Hex() + "-" + hexContractAddress
if _, ok := balances[chainID]; !ok {
continue
}
if _, ok := balances[chainID][accountAddress]; !ok {
continue
}
contractAddress := gethcommon.HexToAddress(hexContractAddress)
value, ok := balances[chainID][accountAddress][contractAddress]
if !ok {
continue
}
// Skip the contract address if it has been used already in the sum.
if _, ok := usedBalances[usedKey]; ok {
continue
}
if _, ok := res[accountAddress]; !ok {
res[accountAddress] = make(map[string]*PermissionedBalance, 0)
}
if _, ok := res[accountAddress][criteria.Symbol]; !ok {
res[accountAddress][criteria.Symbol] = &PermissionedBalance{
Type: criteria.Type,
Symbol: criteria.Symbol,
Name: criteria.Name,
Decimals: criteria.Decimals,
Amount: &bigint.BigInt{Int: big.NewInt(0)},
}
}
res[accountAddress][criteria.Symbol].Amount.Add(
res[accountAddress][criteria.Symbol].Amount.Int,
value.ToInt(),
)
usedBalances[usedKey] = true
}
}
}
}
return res
}
func isERC721CriteriaSatisfied(tokenBalances []thirdparty.TokenBalance, criteria *protobuf.TokenCriteria) bool {
// No token IDs to compare against, so the criteria is satisfied.
if len(criteria.TokenIds) == 0 {
return true
}
for _, tokenID := range criteria.TokenIds {
tokenIDBigInt := new(big.Int).SetUint64(tokenID)
for _, asset := range tokenBalances {
if asset.TokenID.Cmp(tokenIDBigInt) == 0 && asset.Balance.Sign() > 0 {
return true
}
}
}
return false
}
func (m *Manager) calculatePermissionedBalancesERC721(
accountAddresses []gethcommon.Address,
balances CollectiblesByChain,
tokenPermissions []*CommunityTokenPermission,
) map[gethcommon.Address]map[string]*PermissionedBalance {
res := make(map[gethcommon.Address]map[string]*PermissionedBalance)
// Set with composite key (chain ID + wallet address + contract address) to
// store if we already processed the balance.
usedBalances := make(map[string]bool)
for _, permission := range tokenPermissions {
for _, criteria := range permission.TokenCriteria {
if criteria.Type != protobuf.CommunityTokenType_ERC721 {
continue
}
for _, accountAddress := range accountAddresses {
for chainID, hexContractAddress := range criteria.ContractAddresses {
usedKey := strconv.FormatUint(chainID, 10) + "-" + accountAddress.Hex() + "-" + hexContractAddress
if _, ok := balances[chainID]; !ok {
continue
}
if _, ok := balances[chainID][accountAddress]; !ok {
continue
}
contractAddress := gethcommon.HexToAddress(hexContractAddress)
tokenBalances, ok := balances[chainID][accountAddress][contractAddress]
if !ok || len(tokenBalances) == 0 {
continue
}
// Skip the contract address if it has been used already in the sum.
if _, ok := usedBalances[usedKey]; ok {
continue
}
usedBalances[usedKey] = true
if _, ok := res[accountAddress]; !ok {
res[accountAddress] = make(map[string]*PermissionedBalance, 0)
}
if _, ok := res[accountAddress][criteria.Symbol]; !ok {
res[accountAddress][criteria.Symbol] = &PermissionedBalance{
Type: criteria.Type,
Symbol: criteria.Symbol,
Name: criteria.Name,
Decimals: criteria.Decimals,
Amount: &bigint.BigInt{Int: big.NewInt(0)},
}
}
if isERC721CriteriaSatisfied(tokenBalances, criteria) {
// We don't care about summing balances, thus setting as 1 is
// sufficient.
res[accountAddress][criteria.Symbol].Amount = &bigint.BigInt{Int: big.NewInt(1)}
}
}
}
}
}
return res
}
func (m *Manager) calculatePermissionedBalances(
chainIDs []uint64,
accountAddresses []gethcommon.Address,
erc20Balances BalancesByChain,
erc721Balances CollectiblesByChain,
tokenPermissions []*CommunityTokenPermission,
) map[gethcommon.Address][]PermissionedBalance {
res := make(map[gethcommon.Address][]PermissionedBalance, 0)
aggregatedERC721Balances := m.calculatePermissionedBalancesERC721(accountAddresses, erc721Balances, tokenPermissions)
for accountAddress, tokens := range aggregatedERC721Balances {
for _, permissionedToken := range tokens {
if permissionedToken.Amount.Sign() > 0 {
res[accountAddress] = append(res[accountAddress], *permissionedToken)
}
}
}
aggregatedERC20Balances := calculatePermissionedBalancesERC20(accountAddresses, erc20Balances, tokenPermissions)
for accountAddress, tokens := range aggregatedERC20Balances {
for _, permissionedToken := range tokens {
if permissionedToken.Amount.Sign() > 0 {
res[accountAddress] = append(res[accountAddress], *permissionedToken)
}
}
}
return res
}
func keepRoleTokenPermissions(tokenPermissions map[string]*CommunityTokenPermission) []*CommunityTokenPermission {
res := make([]*CommunityTokenPermission, 0)
for _, p := range tokenPermissions {
if p.Type == protobuf.CommunityTokenPermission_BECOME_MEMBER ||
p.Type == protobuf.CommunityTokenPermission_BECOME_ADMIN ||
p.Type == protobuf.CommunityTokenPermission_BECOME_TOKEN_MASTER ||
p.Type == protobuf.CommunityTokenPermission_BECOME_TOKEN_OWNER {
res = append(res, p)
}
}
return res
}
// GetPermissionedBalances returns balances indexed by account address.
//
// It assumes balances in different chains with the same symbol can be summed.
// It also assumes the criteria's decimals field is the same across different
// criteria when they refer to the same asset (by symbol).
func (m *Manager) GetPermissionedBalances(
ctx context.Context,
communityID types.HexBytes,
accountAddresses []gethcommon.Address,
) (map[gethcommon.Address][]PermissionedBalance, error) {
community, err := m.GetByID(communityID)
if err != nil {
return nil, err
}
if community == nil {
return nil, errors.Errorf("community does not exist ID='%s'", communityID)
}
tokenPermissions := keepRoleTokenPermissions(community.TokenPermissions())
allChainIDs, err := m.tokenManager.GetAllChainIDs()
if err != nil {
return nil, err
}
accountsAndChainIDs := combineAddressesAndChainIDs(accountAddresses, allChainIDs)
erc20TokenCriteriaByChain, erc721TokenCriteriaByChain, _ := ExtractTokenCriteria(tokenPermissions)
accounts := make([]gethcommon.Address, 0, len(accountsAndChainIDs))
for _, accountAndChainIDs := range accountsAndChainIDs {
accounts = append(accounts, accountAndChainIDs.Address)
}
erc20ChainIDsSet := make(map[uint64]bool)
erc20TokenAddresses := make([]gethcommon.Address, 0)
for chainID, criterionByContractAddress := range erc20TokenCriteriaByChain {
erc20ChainIDsSet[chainID] = true
for contractAddress := range criterionByContractAddress {
erc20TokenAddresses = append(erc20TokenAddresses, gethcommon.HexToAddress(contractAddress))
}
}
erc721ChainIDsSet := make(map[uint64]bool)
for chainID := range erc721TokenCriteriaByChain {
erc721ChainIDsSet[chainID] = true
}
erc20ChainIDs := calculateChainIDsSet(accountsAndChainIDs, erc20ChainIDsSet)
erc721ChainIDs := calculateChainIDsSet(accountsAndChainIDs, erc721ChainIDsSet)
erc20Balances, err := m.tokenManager.GetBalancesByChain(ctx, accounts, erc20TokenAddresses, erc20ChainIDs)
if err != nil {
return nil, err
}
erc721Balances := make(CollectiblesByChain)
if len(erc721ChainIDs) > 0 {
balances, err := m.GetOwnedERC721Tokens(accounts, erc721TokenCriteriaByChain, erc721ChainIDs)
if err != nil {
return nil, err
}
erc721Balances = balances
}
return m.calculatePermissionedBalances(allChainIDs, accountAddresses, erc20Balances, erc721Balances, tokenPermissions), nil
}