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balance_checker.go
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balance_checker.go
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package provider
import (
"context"
"math/rand"
"time"
"github.com/boz/go-lifecycle"
sdk "github.com/cosmos/cosmos-sdk/types"
btypes "github.com/cosmos/cosmos-sdk/x/bank/types"
"github.com/tendermint/tendermint/libs/log"
tmrpc "github.com/tendermint/tendermint/rpc/core/types"
aclient "github.com/akash-network/akash-api/go/node/client/v1beta2"
dtypes "github.com/akash-network/akash-api/go/node/deployment/v1beta3"
mtypes "github.com/akash-network/akash-api/go/node/market/v1beta4"
"github.com/akash-network/node/pubsub"
netutil "github.com/akash-network/node/util/network"
"github.com/akash-network/node/util/runner"
"github.com/akash-network/node/x/escrow/client/util"
"github.com/akash-network/provider/event"
"github.com/akash-network/provider/session"
)
type respState int
const (
withdrawTimeout = 30 * time.Second
)
const (
respStateNextCheck = iota
respStateOutOfFunds
respStateScheduledWithdraw
)
type BalanceCheckerConfig struct {
WithdrawalPeriod time.Duration
LeaseFundsCheckInterval time.Duration
}
type leaseState struct {
tm *time.Timer
scheduledWithdrawAt time.Time
}
type balanceChecker struct {
ctx context.Context
session session.Session
log log.Logger
lc lifecycle.Lifecycle
bus pubsub.Bus
ownAddr sdk.AccAddress
bqc btypes.QueryClient
aqc aclient.QueryClient
leases map[mtypes.LeaseID]*leaseState
cfg BalanceCheckerConfig
}
type leaseCheckResponse struct {
lid mtypes.LeaseID
checkAfter time.Duration
state respState
err error
}
func newBalanceChecker(ctx context.Context,
bqc btypes.QueryClient,
aqc aclient.QueryClient,
accAddr sdk.AccAddress,
clientSession session.Session,
bus pubsub.Bus,
cfg BalanceCheckerConfig) (*balanceChecker, error) {
bc := &balanceChecker{
ctx: ctx,
session: clientSession,
log: clientSession.Log().With("cmp", "balance-checker"),
bus: bus,
lc: lifecycle.New(),
ownAddr: accAddr,
bqc: bqc,
aqc: aqc,
leases: make(map[mtypes.LeaseID]*leaseState),
cfg: cfg,
}
startCh := make(chan error, 1)
go bc.lc.WatchContext(ctx)
go bc.run(startCh)
select {
case err := <-startCh:
if err != nil {
return nil, err
}
case <-ctx.Done():
return nil, ctx.Err()
}
return bc, nil
}
func (bc *balanceChecker) runEscrowCheck(ctx context.Context, lid mtypes.LeaseID, scheduledWithdraw bool, res chan<- leaseCheckResponse) {
go func() {
select {
case <-bc.lc.Done():
case res <- bc.doEscrowCheck(ctx, lid, scheduledWithdraw):
}
}()
}
func (bc *balanceChecker) doEscrowCheck(ctx context.Context, lid mtypes.LeaseID, scheduledWithdraw bool) leaseCheckResponse {
resp := leaseCheckResponse{
lid: lid,
state: respStateNextCheck,
}
if scheduledWithdraw {
resp.state = respStateScheduledWithdraw
}
var syncInfo *tmrpc.SyncInfo
syncInfo, resp.err = bc.session.Client().Node().SyncInfo(ctx)
if resp.err != nil {
return resp
}
if syncInfo.CatchingUp {
resp.err = aclient.ErrNodeNotSynced
return resp
}
var dResp *dtypes.QueryDeploymentResponse
var lResp *mtypes.QueryLeasesResponse
// Fetch the balance of the escrow account
dResp, resp.err = bc.aqc.Deployment(ctx, &dtypes.QueryDeploymentRequest{
ID: lid.DeploymentID(),
})
if resp.err != nil {
return resp
}
lResp, resp.err = bc.aqc.Leases(ctx, &mtypes.QueryLeasesRequest{
Filters: mtypes.LeaseFilters{
Owner: lid.Owner,
DSeq: lid.DSeq,
State: "active",
},
})
if resp.err != nil {
return resp
}
totalLeaseAmount := sdk.NewDec(0)
for _, lease := range lResp.Leases {
totalLeaseAmount = totalLeaseAmount.Add(lease.Lease.Price.Amount)
}
balanceRemain := util.LeaseCalcBalanceRemain(dResp.EscrowAccount.TotalBalance().Amount,
syncInfo.LatestBlockHeight,
dResp.EscrowAccount.SettledAt,
totalLeaseAmount)
blocksRemain := util.LeaseCalcBlocksRemain(balanceRemain, totalLeaseAmount)
// lease is out of funds
if blocksRemain <= 0 {
resp.state = respStateOutOfFunds
resp.checkAfter = time.Minute * 10
} else {
blocksPerCheckInterval := int64(bc.cfg.LeaseFundsCheckInterval / netutil.AverageBlockTime)
if blocksRemain > blocksPerCheckInterval {
blocksRemain = blocksPerCheckInterval
}
resp.checkAfter = time.Duration(blocksRemain) * netutil.AverageBlockTime
}
return resp
}
func (bc *balanceChecker) startWithdraw(ctx context.Context, lid mtypes.LeaseID) error {
ctx, cancel := context.WithTimeout(ctx, withdrawTimeout)
defer cancel()
msg := &mtypes.MsgWithdrawLease{
LeaseID: lid,
}
_, err := bc.session.Client().Tx().Broadcast(ctx, []sdk.Msg{msg}, aclient.WithResultCodeAsError())
return err
}
func (bc *balanceChecker) run(startCh chan<- error) {
ctx, cancel := context.WithCancel(bc.ctx)
defer func() {
cancel()
bc.lc.ShutdownCompleted()
for _, lState := range bc.leases {
if lState.tm != nil && !lState.tm.Stop() {
<-lState.tm.C
}
}
bc.log.Debug("shutdown complete")
}()
leaseCheckCh := make(chan leaseCheckResponse, 1)
var resultch chan runner.Result
subscriber, err := bc.bus.Subscribe()
startCh <- err
if err != nil {
return
}
resultch = make(chan runner.Result, 1)
loop:
for {
select {
case <-bc.lc.ShutdownRequest():
bc.log.Debug("shutting down")
bc.lc.ShutdownInitiated(nil)
cancel()
break loop
case evt := <-subscriber.Events():
switch ev := evt.(type) {
case event.LeaseAddFundsMonitor:
var scheduledWithdraw time.Time
// if provider configured with periodic force withdrawal
// set next time at which withdraw will happen
if bc.cfg.WithdrawalPeriod > 0 {
scheduledWithdraw = time.Now().Add(bc.cfg.WithdrawalPeriod)
}
lState := &leaseState{
scheduledWithdrawAt: scheduledWithdraw,
}
bc.leases[ev.LeaseID] = lState
// if there was provider restart with a bunch of active leases
// spread their requests across 1min interval
// to reduce pressure on the RPC
if !ev.IsNewLease {
checkIn := time.Duration(rand.Int63n(int64(time.Minute))) // nolint: gosec
lState.tm = bc.timerFunc(ctx, checkIn, ev.LeaseID, false, leaseCheckCh)
} else {
bc.runEscrowCheck(ctx, ev.LeaseID, false, leaseCheckCh)
}
case event.LeaseRemoveFundsMonitor:
lsState, exists := bc.leases[ev.LeaseID]
if !exists {
break
}
if lsState.tm != nil && !lsState.tm.Stop() {
<-lsState.tm.C
}
delete(bc.leases, ev.LeaseID)
}
case res := <-leaseCheckCh:
// we may have timer fired just a heart beat ahead of lease remove event.
lState, exists := bc.leases[res.lid]
if !exists {
continue loop
}
withdraw := false
switch res.state {
case respStateOutOfFunds:
bc.log.Debug("lease is out of funds", "lease", res.lid)
// reschedule funds check. if lease not being topped up then network will close it
fallthrough
case respStateScheduledWithdraw:
withdraw = true
bc.log.Debug("sending withdraw", "lease", res.lid)
// reschedule periodic withdraw if configured
if bc.cfg.WithdrawalPeriod > 0 {
lState.scheduledWithdrawAt = time.Now().Add(bc.cfg.WithdrawalPeriod)
}
fallthrough
case respStateNextCheck:
timerPeriod := res.checkAfter
scheduledWithdraw := false
if res.err != nil {
bc.log.Info("couldn't check lease balance. retrying in 1m", "leaseId", res.lid, "error", res.err.Error())
timerPeriod = time.Minute
} else if !withdraw && !lState.scheduledWithdrawAt.IsZero() {
withdrawIn := time.Until(lState.scheduledWithdrawAt)
if timerPeriod >= withdrawIn {
timerPeriod = withdrawIn
scheduledWithdraw = true
}
}
lState.tm = bc.timerFunc(ctx, timerPeriod, res.lid, scheduledWithdraw, leaseCheckCh)
}
if withdraw {
go func() {
select {
case <-ctx.Done():
case resultch <- runner.NewResult(res.lid, bc.startWithdraw(ctx, res.lid)):
}
}()
}
case res := <-resultch:
if err := res.Error(); err != nil {
bc.log.Error("failed to do lease withdrawal", "err", err, "LeaseID", res.Value().(mtypes.LeaseID))
}
}
}
}
func (bc *balanceChecker) timerFunc(ctx context.Context, d time.Duration, lid mtypes.LeaseID, scheduledWithdraw bool, ch chan<- leaseCheckResponse) *time.Timer {
return time.AfterFunc(d, func() {
select {
case <-bc.ctx.Done():
case ch <- bc.doEscrowCheck(ctx, lid, scheduledWithdraw):
}
})
}