laconicd-deprecated/x/nameservice/keeper/keeper.go

437 lines
14 KiB
Go

package keeper
import (
"bytes"
"fmt"
"sort"
"time"
"github.com/cosmos/cosmos-sdk/codec"
"github.com/cosmos/cosmos-sdk/codec/legacy"
sdk "github.com/cosmos/cosmos-sdk/types"
sdkerrors "github.com/cosmos/cosmos-sdk/types/errors"
auth "github.com/cosmos/cosmos-sdk/x/auth/keeper"
bank "github.com/cosmos/cosmos-sdk/x/bank/keeper"
paramtypes "github.com/cosmos/cosmos-sdk/x/params/types"
auctionkeeper "github.com/tharsis/ethermint/x/auction/keeper"
bondkeeper "github.com/tharsis/ethermint/x/bond/keeper"
"github.com/tharsis/ethermint/x/nameservice/helpers"
"github.com/tharsis/ethermint/x/nameservice/types"
)
var (
// PrefixCIDToRecordIndex is the prefix for CID -> Record index.
// Note: This is the primary index in the system.
// Note: Golang doesn't support const arrays.
PrefixCIDToRecordIndex = []byte{0x00}
// PrefixNameAuthorityRecordIndex is the prefix for the name -> NameAuthority index.
PrefixNameAuthorityRecordIndex = []byte{0x01}
// PrefixCRNToNameRecordIndex is the prefix for the CRN -> NamingRecord index.
PrefixCRNToNameRecordIndex = []byte{0x02}
// PrefixBondIDToRecordsIndex is the prefix for the Bond ID -> [Record] index.
PrefixBondIDToRecordsIndex = []byte{0x03}
// PrefixBlockChangesetIndex is the prefix for the block changeset index.
PrefixBlockChangesetIndex = []byte{0x04}
// PrefixAuctionToAuthorityNameIndex is the prefix for the auction ID -> authority name index.
PrefixAuctionToAuthorityNameIndex = []byte{0x05}
// PrefixBondIDToAuthoritiesIndex is the prefix for the Bond ID -> [Authority] index.
PrefixBondIDToAuthoritiesIndex = []byte{0x06}
// PrefixExpiryTimeToRecordsIndex is the prefix for the Expiry Time -> [Record] index.
PrefixExpiryTimeToRecordsIndex = []byte{0x10}
// PrefixExpiryTimeToAuthoritiesIndex is the prefix for the Expiry Time -> [Authority] index.
PrefixExpiryTimeToAuthoritiesIndex = []byte{0x11}
// PrefixCIDToNamesIndex the the reverse index for naming, i.e. maps CID -> []Names.
// TODO(ashwin): Move out of WNS once we have an indexing service.
PrefixCIDToNamesIndex = []byte{0xe0}
)
// Keeper maintains the link to storage and exposes getter/setter methods for the various parts of the state machine
type Keeper struct {
accountKeeper auth.AccountKeeper
bankKeeper bank.Keeper
recordKeeper RecordKeeper
bondKeeper bondkeeper.Keeper
auctionKeeper auctionkeeper.Keeper
storeKey sdk.StoreKey // Unexposed key to access store from sdk.Context
cdc codec.BinaryCodec // The wire codec for binary encoding/decoding.
paramSubspace paramtypes.Subspace
}
// NewKeeper creates new instances of the nameservice Keeper
func NewKeeper(cdc codec.BinaryCodec, accountKeeper auth.AccountKeeper, bankKeeper bank.Keeper, recordKeeper RecordKeeper,
bondKeeper bondkeeper.Keeper, auctionKeeper auctionkeeper.Keeper, storeKey sdk.StoreKey, ps paramtypes.Subspace) Keeper {
// set KeyTable if it has not already been set
if !ps.HasKeyTable() {
ps = ps.WithKeyTable(types.ParamKeyTable())
}
return Keeper{
accountKeeper: accountKeeper,
bankKeeper: bankKeeper,
recordKeeper: recordKeeper,
bondKeeper: bondKeeper,
auctionKeeper: auctionKeeper,
storeKey: storeKey,
cdc: cdc,
paramSubspace: ps,
}
}
// GetRecordIndexKey Generates Bond ID -> Bond index key.
func GetRecordIndexKey(id string) []byte {
return append(PrefixCIDToRecordIndex, []byte(id)...)
}
// HasRecord - checks if a record by the given ID exists.
func (k Keeper) HasRecord(ctx sdk.Context, id string) bool {
store := ctx.KVStore(k.storeKey)
return store.Has(GetRecordIndexKey(id))
}
// GetRecord - gets a record from the store.
func (k Keeper) GetRecord(ctx sdk.Context, id string) (record types.Record) {
store := ctx.KVStore(k.storeKey)
result := store.Get(GetRecordIndexKey(id))
k.cdc.MustUnmarshal(result, &record)
return record
}
// ListRecords - get all records.
func (k Keeper) ListRecords(ctx sdk.Context) []types.Record {
var records []types.Record
store := ctx.KVStore(k.storeKey)
itr := sdk.KVStorePrefixIterator(store, PrefixCIDToRecordIndex)
defer itr.Close()
for ; itr.Valid(); itr.Next() {
bz := store.Get(itr.Key())
if bz != nil {
var obj types.Record
k.cdc.MustUnmarshal(bz, &obj)
records = append(records, recordObjToRecord(store, k.cdc, obj))
}
}
return records
}
// MatchRecords - get all matching records.
func (k Keeper) MatchRecords(ctx sdk.Context, matchFn func(*types.RecordType) bool) []types.Record {
var records []types.Record
store := ctx.KVStore(k.storeKey)
itr := sdk.KVStorePrefixIterator(store, PrefixCIDToRecordIndex)
defer itr.Close()
for ; itr.Valid(); itr.Next() {
bz := store.Get(itr.Key())
if bz != nil {
var obj types.Record
k.cdc.MustUnmarshal(bz, &obj)
obj = recordObjToRecord(store, k.cdc, obj)
record := obj.ToRecordType()
if matchFn(&record) {
records = append(records, obj)
}
}
}
return records
}
func (k Keeper) GetRecordExpiryQueue(ctx sdk.Context) []*types.ExpiryQueueRecord {
var records []*types.ExpiryQueueRecord
store := ctx.KVStore(k.storeKey)
itr := sdk.KVStorePrefixIterator(store, PrefixExpiryTimeToRecordsIndex)
defer itr.Close()
for ; itr.Valid(); itr.Next() {
record, err := helpers.BytesArrToStringArr(itr.Value())
if err != nil {
return records
}
records = append(records, &types.ExpiryQueueRecord{
Id: string(itr.Key()[len(PrefixExpiryTimeToRecordsIndex):]),
Value: record,
})
}
return records
}
// ProcessSetRecord creates a record.
func (k Keeper) ProcessSetRecord(ctx sdk.Context, msg types.MsgSetRecord) error {
payload := msg.Payload.ToReadablePayload()
record := types.RecordType{Attributes: payload.Record, BondId: msg.BondId}
// Check signatures.
resourceSignBytes, _ := record.GetSignBytes()
cid, err := record.GetCID()
if err != nil {
return sdkerrors.Wrap(sdkerrors.ErrInvalidRequest, "Invalid record JSON")
}
record.Id = cid
if exists := k.HasRecord(ctx, record.Id); exists {
return nil
}
record.Owners = []string{}
for _, sig := range payload.Signatures {
pubKey, err := legacy.PubKeyFromBytes(helpers.BytesFromBase64(sig.PubKey))
if err != nil {
fmt.Println("Error decoding pubKey from bytes: ", err)
return sdkerrors.Wrap(sdkerrors.ErrUnauthorized, "Invalid public key.")
}
sigOK := pubKey.VerifySignature(resourceSignBytes, helpers.BytesFromBase64(sig.Sig))
if !sigOK {
fmt.Println("Signature mismatch: ", sig.PubKey)
return sdkerrors.Wrap(sdkerrors.ErrUnauthorized, "Invalid signature.")
}
record.Owners = append(record.Owners, pubKey.Address().String())
}
// Sort owners list.
sort.Strings(record.Owners)
sdkErr := k.processRecord(ctx, &record, false)
if sdkErr != nil {
return sdkErr
}
return nil
}
func (k Keeper) processRecord(ctx sdk.Context, record *types.RecordType, isRenewal bool) error {
params := k.GetParams(ctx)
rent := params.RecordRent
err := k.bondKeeper.TransferCoinsToModuleAccount(ctx, record.BondId, types.RecordRentModuleAccountName, sdk.NewCoins(rent))
if err != nil {
return err
}
record.CreateTime = ctx.BlockHeader().Time.Format(time.RFC3339)
record.ExpiryTime = ctx.BlockHeader().Time.Add(params.RecordRentDuration).Format(time.RFC3339)
record.Deleted = false
k.PutRecord(ctx, record.ToRecordObj())
k.InsertRecordExpiryQueue(ctx, record.ToRecordObj())
// Renewal doesn't change the name and bond indexes.
if !isRenewal {
k.AddBondToRecordIndexEntry(ctx, record.BondId, record.Id)
}
return nil
}
// PutRecord - saves a record to the store and updates ID -> Record index.
func (k Keeper) PutRecord(ctx sdk.Context, record types.Record) {
store := ctx.KVStore(k.storeKey)
store.Set(GetRecordIndexKey(record.Id), k.cdc.MustMarshal(&record))
k.updateBlockChangeSetForRecord(ctx, record.Id)
}
// AddBondToRecordIndexEntry adds the Bond ID -> [Record] index entry.
func (k Keeper) AddBondToRecordIndexEntry(ctx sdk.Context, bondID string, id string) {
store := ctx.KVStore(k.storeKey)
store.Set(getBondIDToRecordsIndexKey(bondID, id), []byte{})
}
// Generates Bond ID -> Records index key.
func getBondIDToRecordsIndexKey(bondID string, id string) []byte {
return append(append(PrefixBondIDToRecordsIndex, []byte(bondID)...), []byte(id)...)
}
// getRecordExpiryQueueTimeKey gets the prefix for the record expiry queue.
func getRecordExpiryQueueTimeKey(timestamp time.Time) []byte {
timeBytes := sdk.FormatTimeBytes(timestamp)
return append(PrefixExpiryTimeToRecordsIndex, timeBytes...)
}
// SetRecordExpiryQueueTimeSlice sets a specific record expiry queue timeslice.
func (k Keeper) SetRecordExpiryQueueTimeSlice(ctx sdk.Context, timestamp time.Time, cids []string) {
store := ctx.KVStore(k.storeKey)
bz, _ := helpers.StrArrToBytesArr(cids)
store.Set(getRecordExpiryQueueTimeKey(timestamp), bz)
}
// DeleteRecordExpiryQueueTimeSlice deletes a specific record expiry queue timeslice.
func (k Keeper) DeleteRecordExpiryQueueTimeSlice(ctx sdk.Context, timestamp time.Time) {
store := ctx.KVStore(k.storeKey)
store.Delete(getRecordExpiryQueueTimeKey(timestamp))
}
// GetRecordExpiryQueueTimeSlice gets a specific record queue timeslice.
// A timeslice is a slice of CIDs corresponding to records that expire at a certain time.
func (k Keeper) GetRecordExpiryQueueTimeSlice(ctx sdk.Context, timestamp time.Time) []string {
store := ctx.KVStore(k.storeKey)
bz := store.Get(getRecordExpiryQueueTimeKey(timestamp))
if bz == nil {
return []string{}
}
cids, err := helpers.BytesArrToStringArr(bz)
if err != nil {
return []string{}
}
return cids
}
// InsertRecordExpiryQueue inserts a record CID to the appropriate timeslice in the record expiry queue.
func (k Keeper) InsertRecordExpiryQueue(ctx sdk.Context, val types.Record) {
expiryTime, err := time.Parse(time.RFC3339, val.ExpiryTime)
if err != nil {
panic(err)
}
timeSlice := k.GetRecordExpiryQueueTimeSlice(ctx, expiryTime)
timeSlice = append(timeSlice, val.Id)
k.SetRecordExpiryQueueTimeSlice(ctx, expiryTime, timeSlice)
}
// DeleteRecordExpiryQueue deletes a record CID from the record expiry queue.
func (k Keeper) DeleteRecordExpiryQueue(ctx sdk.Context, record types.Record) {
expiryTime, err := time.Parse(time.RFC3339, record.ExpiryTime)
if err != nil {
panic(err)
}
timeSlice := k.GetRecordExpiryQueueTimeSlice(ctx, expiryTime)
var newTimeSlice []string
for _, cid := range timeSlice {
if !bytes.Equal([]byte(cid), []byte(record.Id)) {
newTimeSlice = append(newTimeSlice, cid)
}
}
if len(newTimeSlice) == 0 {
k.DeleteRecordExpiryQueueTimeSlice(ctx, expiryTime)
} else {
k.SetRecordExpiryQueueTimeSlice(ctx, expiryTime, newTimeSlice)
}
}
// RecordExpiryQueueIterator returns all the record expiry queue timeslices from time 0 until endTime.
func (k Keeper) RecordExpiryQueueIterator(ctx sdk.Context, endTime time.Time) sdk.Iterator {
store := ctx.KVStore(k.storeKey)
rangeEndBytes := sdk.InclusiveEndBytes(getRecordExpiryQueueTimeKey(endTime))
return store.Iterator(PrefixExpiryTimeToRecordsIndex, rangeEndBytes)
}
// GetAllExpiredRecords returns a concatenated list of all the timeslices before currTime.
func (k Keeper) GetAllExpiredRecords(ctx sdk.Context, currTime time.Time) (expiredRecordCIDs []string) {
// Gets an iterator for all timeslices from time 0 until the current block header time.
itr := k.RecordExpiryQueueIterator(ctx, ctx.BlockHeader().Time)
defer itr.Close()
for ; itr.Valid(); itr.Next() {
timeslice, err := helpers.BytesArrToStringArr(itr.Value())
if err != nil {
panic(err)
}
expiredRecordCIDs = append(expiredRecordCIDs, timeslice...)
}
return expiredRecordCIDs
}
// ProcessRecordExpiryQueue tries to renew expiring records (by collecting rent) else marks them as deleted.
func (k Keeper) ProcessRecordExpiryQueue(ctx sdk.Context) {
cids := k.GetAllExpiredRecords(ctx, ctx.BlockHeader().Time)
for _, cid := range cids {
record := k.GetRecord(ctx, cid)
// If record doesn't have an associated bond or if bond no longer exists, mark it deleted.
if record.BondId == "" || !k.bondKeeper.HasBond(ctx, record.BondId) {
record.Deleted = true
k.PutRecord(ctx, record)
k.DeleteRecordExpiryQueue(ctx, record)
return
}
// Try to renew the record by taking rent.
k.TryTakeRecordRent(ctx, record)
}
}
// TryTakeRecordRent tries to take rent from the record bond.
func (k Keeper) TryTakeRecordRent(ctx sdk.Context, record types.Record) {
params := k.GetParams(ctx)
rent := params.RecordRent
sdkErr := k.bondKeeper.TransferCoinsToModuleAccount(ctx, record.BondId, types.RecordRentModuleAccountName, sdk.NewCoins(rent))
if sdkErr != nil {
// Insufficient funds, mark record as deleted.
record.Deleted = true
k.PutRecord(ctx, record)
k.DeleteRecordExpiryQueue(ctx, record)
return
}
// Delete old expiry queue entry, create new one.
k.DeleteRecordExpiryQueue(ctx, record)
record.ExpiryTime = ctx.BlockHeader().Time.Add(params.RecordRentDuration).Format(time.RFC3339)
k.InsertRecordExpiryQueue(ctx, record)
// Save record.
record.Deleted = false
k.PutRecord(ctx, record)
k.AddBondToRecordIndexEntry(ctx, record.BondId, record.Id)
}
// GetModuleBalances gets the nameservice module account(s) balances.
func (k Keeper) GetModuleBalances(ctx sdk.Context) []*types.AccountBalance {
var balances []*types.AccountBalance
accountNames := []string{types.RecordRentModuleAccountName, types.AuthorityRentModuleAccountName}
for _, accountName := range accountNames {
moduleAddress := k.accountKeeper.GetModuleAddress(accountName)
moduleAccount := k.accountKeeper.GetAccount(ctx, moduleAddress)
if moduleAccount != nil {
accountBalance := k.bankKeeper.GetAllBalances(ctx, moduleAddress)
balances = append(balances, &types.AccountBalance{
AccountName: accountName,
Balance: accountBalance,
})
}
}
return balances
}
func recordObjToRecord(store sdk.KVStore, codec codec.BinaryCodec, record types.Record) types.Record {
reverseNameIndexKey := GetCIDToNamesIndexKey(record.Id)
if store.Has(reverseNameIndexKey) {
names, err := helpers.BytesArrToStringArr(store.Get(reverseNameIndexKey))
if err != nil {
panic(err)
}
record.Names = names
}
return record
}