frostfs-node/pkg/innerring/processors/settlement/audit/calculate.go

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package audit
import (
"bytes"
"encoding/hex"
"math/big"
"github.com/nspcc-dev/neofs-api-go/pkg/audit"
"github.com/nspcc-dev/neofs-api-go/pkg/container"
"github.com/nspcc-dev/neofs-api-go/pkg/object"
"github.com/nspcc-dev/neofs-node/pkg/util/logger"
"go.uber.org/zap"
)
// CalculatePrm groups required parameters of
// Calculator.CalculateForEpoch call.
type CalculatePrm struct {
// Number of epoch to perform the calculation.
Epoch uint64
}
type singleResultCtx struct {
eAudit uint64
auditResult *audit.Result
log *logger.Logger
cid *container.ID
txTable *transferTable
cnrInfo ContainerInfo
cnrNodes []NodeInfo
passNodes map[string]NodeInfo
sumSGSize *big.Int
}
var bigGB = big.NewInt(1 << 30)
// Calculate calculates payments for audit results in a specific epoch of the network.
// Wraps the results in a money transfer transaction and sends it to the network.
func (c *Calculator) Calculate(p *CalculatePrm) {
log := c.opts.log.With(
zap.Uint64("current epoch", p.Epoch),
)
log.Info("calculate audit settlements")
log.Debug("getting results for the previous epoch")
auditResults, err := c.prm.ResultStorage.AuditResultsForEpoch(p.Epoch - 1)
if err != nil {
log.Error("could not collect audit results")
return
} else if len(auditResults) == 0 {
log.Debug("no audit results in previous epoch")
return
}
log.Debug("processing audit results",
zap.Int("number", len(auditResults)),
)
table := newTransferTable()
for i := range auditResults {
c.processResult(&singleResultCtx{
log: log,
auditResult: auditResults[i],
txTable: table,
})
}
log.Debug("processing transfers")
table.iterate(func(tx *transferTx) {
c.prm.Exchanger.Transfer(tx.from, tx.to, tx.amount)
})
}
func (c *Calculator) processResult(ctx *singleResultCtx) {
ctx.log = ctx.log.With(
zap.Stringer("cid", ctx.containerID()),
zap.Uint64("audit epoch", ctx.auditResult.AuditEpoch()),
)
ctx.log.Debug("reading information about the container")
ok := c.readContainerInfo(ctx)
if !ok {
return
}
ctx.log.Debug("building placement")
ok = c.buildPlacement(ctx)
if !ok {
return
}
ctx.log.Debug("collecting passed nodes")
ok = c.collectPassNodes(ctx)
if !ok {
return
}
ctx.log.Debug("calculating sum of the sizes of all storage groups")
ok = c.sumSGSizes(ctx)
if !ok {
return
}
ctx.log.Debug("filling transfer table")
c.fillTransferTable(ctx)
}
func (c *Calculator) readContainerInfo(ctx *singleResultCtx) bool {
var err error
ctx.cnrInfo, err = c.prm.ContainerStorage.ContainerInfo(ctx.auditResult.ContainerID())
if err != nil {
ctx.log.Error("could not get container info",
zap.String("error", err.Error()),
)
}
return err == nil
}
func (c *Calculator) buildPlacement(ctx *singleResultCtx) bool {
var err error
ctx.cnrNodes, err = c.prm.PlacementCalculator.ContainerNodes(ctx.auditEpoch(), ctx.containerID())
if err != nil {
ctx.log.Error("could not get container nodes",
zap.String("error", err.Error()),
)
}
empty := len(ctx.cnrNodes) == 0
if empty {
ctx.log.Debug("empty list of container nodes")
}
return err == nil && !empty
}
func (c *Calculator) collectPassNodes(ctx *singleResultCtx) bool {
ctx.passNodes = make(map[string]NodeInfo)
loop:
for _, cnrNode := range ctx.cnrNodes {
for _, passNode := range ctx.auditResult.PassNodes() {
if !bytes.Equal(cnrNode.PublicKey(), passNode) {
continue
}
for _, failNode := range ctx.auditResult.FailNodes() {
if bytes.Equal(cnrNode.PublicKey(), failNode) {
continue loop
}
}
ctx.passNodes[hex.EncodeToString(passNode)] = cnrNode
}
}
empty := len(ctx.passNodes) == 0
if empty {
ctx.log.Debug("none of the container nodes passed the audit")
}
return !empty
}
func (c *Calculator) sumSGSizes(ctx *singleResultCtx) bool {
passedSG := ctx.auditResult.PassSG()
if len(passedSG) == 0 {
ctx.log.Debug("empty list of passed SG")
return false
}
sumPassSGSize := uint64(0)
addr := object.NewAddress()
addr.SetContainerID(ctx.containerID())
for _, sgID := range ctx.auditResult.PassSG() {
addr.SetObjectID(sgID)
sgInfo, err := c.prm.SGStorage.SGInfo(addr)
if err != nil {
ctx.log.Error("could not get SG info",
zap.Stringer("id", sgID),
)
return false // we also can continue and calculate at least some part
}
sumPassSGSize += sgInfo.Size()
}
if sumPassSGSize == 0 {
ctx.log.Debug("zero sum SG size")
return false
}
ctx.sumSGSize = big.NewInt(int64(sumPassSGSize))
return true
}
func (c *Calculator) fillTransferTable(ctx *singleResultCtx) bool {
cnrOwner := ctx.cnrInfo.Owner()
for k, info := range ctx.passNodes {
ownerID, err := c.prm.AccountStorage.ResolveKey(info)
if err != nil {
ctx.log.Error("could not resolve public key of the storage node",
zap.String("error", err.Error()),
zap.String("key", k),
)
return false // we also can continue and calculate at least some part
}
price := info.Price()
ctx.log.Debug("calculating storage node salary for audit (GASe-12)",
zap.Stringer("sum SG size", ctx.sumSGSize),
zap.Stringer("price", price),
)
fee := big.NewInt(0).Mul(price, ctx.sumSGSize)
fee.Div(fee, bigGB)
ctx.txTable.transfer(&transferTx{
from: cnrOwner,
to: ownerID,
amount: fee,
})
}
return false
}
func (c *singleResultCtx) containerID() *container.ID {
if c.cid == nil {
c.cid = c.auditResult.ContainerID()
}
return c.cid
}
func (c *singleResultCtx) auditEpoch() uint64 {
if c.eAudit == 0 {
c.eAudit = c.auditResult.AuditEpoch()
}
return c.eAudit
}