forked from TrueCloudLab/frostfs-contract
561 lines
17 KiB
Go
561 lines
17 KiB
Go
package netmap
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import (
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"git.frostfs.info/TrueCloudLab/frostfs-contract/common"
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"github.com/nspcc-dev/neo-go/pkg/interop"
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"github.com/nspcc-dev/neo-go/pkg/interop/contract"
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"github.com/nspcc-dev/neo-go/pkg/interop/iterator"
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"github.com/nspcc-dev/neo-go/pkg/interop/native/ledger"
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"github.com/nspcc-dev/neo-go/pkg/interop/native/management"
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"github.com/nspcc-dev/neo-go/pkg/interop/native/std"
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"github.com/nspcc-dev/neo-go/pkg/interop/runtime"
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"github.com/nspcc-dev/neo-go/pkg/interop/storage"
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)
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// NodeState is an enumeration for node states.
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type NodeState int
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// Various Node states
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const (
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_ NodeState = iota
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// NodeStateOnline stands for nodes that are in full network and
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// operational availability.
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NodeStateOnline
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// NodeStateOffline stands for nodes that are in network unavailability.
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NodeStateOffline
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// NodeStateMaintenance stands for nodes under maintenance with partial
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// network availability.
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NodeStateMaintenance
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)
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// Node groups data related to FrostFS storage nodes registered in the FrostFS
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// network. The information is stored in the current contract.
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type Node struct {
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// Information about the node encoded according to the FrostFS binary
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// protocol.
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BLOB []byte
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// Current node state.
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State NodeState
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}
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const (
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innerRingKey = "innerring"
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// DefaultSnapshotCount contains the number of previous snapshots stored by this contract.
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// Must be less than 255.
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DefaultSnapshotCount = 10
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snapshotCountKey = "snapshotCount"
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snapshotKeyPrefix = "snapshot_"
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snapshotCurrentIDKey = "snapshotCurrent"
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snapshotEpoch = "snapshotEpoch"
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snapshotBlockKey = "snapshotBlock"
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containerContractKey = "containerScriptHash"
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balanceContractKey = "balanceScriptHash"
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cleanupEpochMethod = "newEpoch"
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)
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var (
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configPrefix = []byte("config")
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candidatePrefix = []byte("candidate")
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)
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// _deploy function sets up initial list of inner ring public keys.
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func _deploy(data interface{}, isUpdate bool) {
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ctx := storage.GetContext()
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var args = data.(struct {
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addrBalance interop.Hash160
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addrContainer interop.Hash160
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keys []interop.PublicKey
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config [][]byte
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version int
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})
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ln := len(args.config)
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if ln%2 != 0 {
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panic("bad configuration")
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}
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for i := 0; i < ln/2; i++ {
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key := args.config[i*2]
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val := args.config[i*2+1]
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setConfig(ctx, key, val)
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}
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if isUpdate {
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common.CheckVersion(args.version)
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return
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}
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if len(args.addrBalance) != interop.Hash160Len || len(args.addrContainer) != interop.Hash160Len {
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panic("incorrect length of contract script hash")
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}
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// epoch number is a little endian int, it doesn't need to be serialized
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storage.Put(ctx, snapshotCountKey, DefaultSnapshotCount)
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storage.Put(ctx, snapshotEpoch, 0)
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storage.Put(ctx, snapshotBlockKey, 0)
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prefix := []byte(snapshotKeyPrefix)
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for i := 0; i < DefaultSnapshotCount; i++ {
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common.SetSerialized(ctx, append(prefix, byte(i)), []Node{})
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}
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storage.Put(ctx, snapshotCurrentIDKey, 0)
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storage.Put(ctx, balanceContractKey, args.addrBalance)
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storage.Put(ctx, containerContractKey, args.addrContainer)
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runtime.Log("netmap contract initialized")
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}
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// Update method updates contract source code and manifest. It can be invoked
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// only by committee.
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func Update(script []byte, manifest []byte, data interface{}) {
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if !common.HasUpdateAccess() {
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panic("only committee can update contract")
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}
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management.UpdateWithData(script, manifest, common.AppendVersion(data))
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runtime.Log("netmap contract updated")
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}
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// AddPeerIR accepts Alphabet calls in the notary-enabled contract setting and
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// behaves similar to AddPeer in the notary-disabled one.
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//
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// AddPeerIR MUST NOT be called in notary-disabled contract setting.
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// AddPeerIR MUST be called by the Alphabet member only.
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func AddPeerIR(nodeInfo []byte) {
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ctx := storage.GetContext()
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common.CheckAlphabetWitness()
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publicKey := nodeInfo[2:35] // V2 format: offset:2, len:33
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addToNetmap(ctx, publicKey, Node{
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BLOB: nodeInfo,
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State: NodeStateOnline,
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})
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}
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// AddPeer accepts information about the network map candidate in the FrostFS
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// binary protocol format and does nothing. Keep method because storage node
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// creates a notary transaction with this method, which produces a notary
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// notification (implicit here).
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func AddPeer(nodeInfo []byte) {
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// V2 format - offset:2, len:33
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common.CheckWitness(nodeInfo[2:35])
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return
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}
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// updates state of the network map candidate by its public key in the contract
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// storage, and throws UpdateStateSuccess notification after this.
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//
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// State MUST be from the NodeState enum.
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func updateCandidateState(ctx storage.Context, publicKey interop.PublicKey, state NodeState) {
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switch state {
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case NodeStateOffline:
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removeFromNetmap(ctx, publicKey)
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runtime.Log("remove storage node from the network map")
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case NodeStateOnline, NodeStateMaintenance:
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updateNetmapState(ctx, publicKey, state)
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runtime.Log("update state of the network map candidate")
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default:
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panic("unsupported state")
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}
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runtime.Notify("UpdateStateSuccess", publicKey, state)
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}
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// UpdateState accepts new state to be assigned to network map candidate
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// identified by the given public key, identifies the signer.
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// Applicable only for notary-enabled environment.
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//
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// Signers:
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//
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// (a) candidate himself only, if provided public key corresponds to the signer
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// (b) Alphabet member only
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// (ab) both candidate and Alphabet member
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// (c) others
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//
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// UpdateState case-by-case behavior:
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//
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// (a) panics
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// (b) panics
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// (ab) updates candidate's state in the contract storage (*), and throws
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// UpdateStateSuccess with the provided key and new state
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// (c) panics
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//
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// (*) Candidate is removed from the candidate set if state is NodeStateOffline.
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// Any other state is written into candidate's descriptor in the contract storage.
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// If requested candidate is missing, panic occurs. Throws UpdateStateSuccess
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// notification on success.
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//
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// State MUST be from the NodeState enum. Public key MUST be
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// interop.PublicKeyCompressedLen bytes.
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func UpdateState(state NodeState, publicKey interop.PublicKey) {
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if len(publicKey) != interop.PublicKeyCompressedLen {
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panic("incorrect public key")
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}
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ctx := storage.GetContext()
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common.CheckWitness(publicKey)
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common.CheckAlphabetWitness()
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updateCandidateState(ctx, publicKey, state)
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}
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// UpdateStateIR accepts Alphabet calls in the notary-enabled contract setting
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// and behaves similar to UpdateState, but does not require candidate's
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// signature presence.
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//
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// UpdateStateIR MUST NOT be called in notary-disabled contract setting.
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// UpdateStateIR MUST be called by the Alphabet member only.
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func UpdateStateIR(state NodeState, publicKey interop.PublicKey) {
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ctx := storage.GetContext()
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common.CheckAlphabetWitness()
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updateCandidateState(ctx, publicKey, state)
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}
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// NewEpoch method changes the epoch number up to the provided epochNum argument. It can
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// be invoked only by Alphabet nodes. If provided epoch number is less than the
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// current epoch number or equals it, the method throws panic.
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//
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// When epoch number is updated, the contract sets storage node candidates as the current
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// network map. The contract also invokes NewEpoch method on Balance and Container
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// contracts.
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//
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// It produces NewEpoch notification.
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func NewEpoch(epochNum int) {
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ctx := storage.GetContext()
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common.CheckAlphabetWitness()
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currentEpoch := storage.Get(ctx, snapshotEpoch).(int)
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if epochNum <= currentEpoch {
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panic("invalid epoch") // ignore invocations with invalid epoch
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}
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dataOnlineState := filterNetmap(ctx)
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runtime.Log("process new epoch")
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// todo: check if provided epoch number is bigger than current
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storage.Put(ctx, snapshotEpoch, epochNum)
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storage.Put(ctx, snapshotBlockKey, ledger.CurrentIndex())
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id := storage.Get(ctx, snapshotCurrentIDKey).(int)
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id = (id + 1) % getSnapshotCount(ctx)
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storage.Put(ctx, snapshotCurrentIDKey, id)
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// put netmap into actual snapshot
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common.SetSerialized(ctx, snapshotKeyPrefix+string([]byte{byte(id)}), dataOnlineState)
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// make clean up routines in other contracts
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cleanup(ctx, epochNum)
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runtime.Notify("NewEpoch", epochNum)
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}
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// Epoch method returns the current epoch number.
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func Epoch() int {
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ctx := storage.GetReadOnlyContext()
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return storage.Get(ctx, snapshotEpoch).(int)
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}
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// LastEpochBlock method returns the block number when the current epoch was applied.
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func LastEpochBlock() int {
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ctx := storage.GetReadOnlyContext()
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return storage.Get(ctx, snapshotBlockKey).(int)
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}
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// Netmap returns set of information about the storage nodes representing a network
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// map in the current epoch.
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//
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// Current state of each node is represented in the State field. It MAY differ
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// with the state encoded into BLOB field, in this case binary encoded state
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// MUST NOT be processed.
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func Netmap() []Node {
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ctx := storage.GetReadOnlyContext()
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id := storage.Get(ctx, snapshotCurrentIDKey).(int)
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return getSnapshot(ctx, snapshotKeyPrefix+string([]byte{byte(id)}))
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}
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// NetmapCandidates returns set of information about the storage nodes
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// representing candidates for the network map in the coming epoch.
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//
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// Current state of each node is represented in the State field. It MAY differ
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// with the state encoded into BLOB field, in this case binary encoded state
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// MUST NOT be processed.
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func NetmapCandidates() []Node {
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ctx := storage.GetReadOnlyContext()
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return getNetmapNodes(ctx)
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}
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// Snapshot returns set of information about the storage nodes representing a network
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// map in (current-diff)-th epoch.
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//
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// Diff MUST NOT be negative. Diff MUST be less than maximum number of network
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// map snapshots stored in the contract. The limit is a contract setting,
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// DefaultSnapshotCount by default. See UpdateSnapshotCount for details.
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//
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// Current state of each node is represented in the State field. It MAY differ
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// with the state encoded into BLOB field, in this case binary encoded state
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// MUST NOT be processed.
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func Snapshot(diff int) []Node {
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ctx := storage.GetReadOnlyContext()
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count := getSnapshotCount(ctx)
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if diff < 0 || count <= diff {
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panic("incorrect diff")
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}
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id := storage.Get(ctx, snapshotCurrentIDKey).(int)
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needID := (id - diff + count) % count
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key := snapshotKeyPrefix + string([]byte{byte(needID)})
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return getSnapshot(ctx, key)
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}
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func getSnapshotCount(ctx storage.Context) int {
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return storage.Get(ctx, snapshotCountKey).(int)
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}
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// UpdateSnapshotCount updates the number of the stored snapshots.
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// If a new number is less than the old one, old snapshots are removed.
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// Otherwise, history is extended with empty snapshots, so
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// `Snapshot` method can return invalid results for `diff = new-old` epochs
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// until `diff` epochs have passed.
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//
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// Count MUST NOT be negative.
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func UpdateSnapshotCount(count int) {
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common.CheckAlphabetWitness()
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if count < 0 {
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panic("count must be positive")
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}
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ctx := storage.GetContext()
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curr := getSnapshotCount(ctx)
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if curr == count {
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panic("count has not changed")
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}
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storage.Put(ctx, snapshotCountKey, count)
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id := storage.Get(ctx, snapshotCurrentIDKey).(int)
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var delStart, delFinish int
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if curr < count {
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// Increase history size.
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//
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// Old state (N = count, K = curr, E = current index, C = current epoch)
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// KEY INDEX: 0 | 1 | ... | E | E+1 | ... | K-1 | ... | N-1
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// EPOCH : C-E | C-E+1 | ... | C | C-K+1 | ... | C-E-1 |
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//
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// New state:
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// KEY INDEX: 0 | 1 | ... | E | E+1 | ... | K-1 | ... | N-1
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// EPOCH : C-E | C-E+1 | ... | C | nil | ... | . | ... | C-E-1
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//
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// So we need to move tail snapshots N-K keys forward,
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// i.e. from E+1 .. K to N-K+E+1 .. N
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diff := count - curr
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lower := diff + id + 1
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for k := count - 1; k >= lower; k-- {
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moveSnapshot(ctx, k-diff, k)
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}
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delStart, delFinish = id+1, id+1+diff
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if curr < delFinish {
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delFinish = curr
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}
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} else {
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// Decrease history size.
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//
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// Old state (N = curr, K = count)
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// KEY INDEX: 0 | 1 | ... K1 ... | E | E+1 | ... K2-1 ... | N-1
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// EPOCH : C-E | C-E+1 | ... .. ... | C | C-N+1 | ... ... ... | C-E-1
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var step, start int
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if id < count {
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// K2 case, move snapshots from E+1+N-K .. N-1 range to E+1 .. K-1
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// New state:
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// KEY INDEX: 0 | 1 | ... | E | E+1 | ... | K-1
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// EPOCH : C-E | C-E+1 | ... | C | C-K+1 | ... | C-E-1
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step = curr - count
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start = id + 1
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} else {
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// New state:
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// KEY INDEX: 0 | 1 | ... | K-1
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// EPOCH : C-K+1 | C-K+2 | ... | C
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// K1 case, move snapshots from E-K+1 .. E range to 0 .. K-1
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// AND replace current id with K-1
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step = id - count + 1
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storage.Put(ctx, snapshotCurrentIDKey, count-1)
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}
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for k := start; k < count; k++ {
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moveSnapshot(ctx, k+step, k)
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}
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delStart, delFinish = count, curr
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}
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for k := delStart; k < delFinish; k++ {
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key := snapshotKeyPrefix + string([]byte{byte(k)})
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storage.Delete(ctx, key)
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}
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}
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func moveSnapshot(ctx storage.Context, from, to int) {
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keyFrom := snapshotKeyPrefix + string([]byte{byte(from)})
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keyTo := snapshotKeyPrefix + string([]byte{byte(to)})
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data := storage.Get(ctx, keyFrom)
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storage.Put(ctx, keyTo, data)
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}
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// SnapshotByEpoch returns set of information about the storage nodes representing
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// a network map in the given epoch.
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//
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// Behaves like Snapshot: it is called after difference with the current epoch is
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// calculated.
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func SnapshotByEpoch(epoch int) []Node {
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ctx := storage.GetReadOnlyContext()
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currentEpoch := storage.Get(ctx, snapshotEpoch).(int)
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return Snapshot(currentEpoch - epoch)
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}
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// Config returns configuration value of FrostFS configuration. If key does
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// not exists, returns nil.
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func Config(key []byte) interface{} {
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ctx := storage.GetReadOnlyContext()
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return getConfig(ctx, key)
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}
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// SetConfig key-value pair as a FrostFS runtime configuration value. It can be invoked
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// only by Alphabet nodes.
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func SetConfig(id, key, val []byte) {
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ctx := storage.GetContext()
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common.CheckAlphabetWitness()
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setConfig(ctx, key, val)
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runtime.Log("configuration has been updated")
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}
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type record struct {
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key []byte
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val []byte
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}
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// ListConfig returns an array of structures that contain key and value of all
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// FrostFS configuration records. Key and value are both byte arrays.
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func ListConfig() []record {
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ctx := storage.GetReadOnlyContext()
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var config []record
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it := storage.Find(ctx, configPrefix, storage.None)
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for iterator.Next(it) {
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pair := iterator.Value(it).(struct {
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key []byte
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val []byte
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})
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r := record{key: pair.key[len(configPrefix):], val: pair.val}
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config = append(config, r)
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}
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return config
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}
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// Version returns the version of the contract.
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func Version() int {
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return common.Version
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}
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// serializes and stores the given Node by its public key in the contract storage,
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// and throws AddPeerSuccess notification after this.
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//
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// Public key MUST match the one encoded in BLOB field.
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func addToNetmap(ctx storage.Context, publicKey []byte, node Node) {
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storageKey := append(candidatePrefix, publicKey...)
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storage.Put(ctx, storageKey, std.Serialize(node))
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runtime.Notify("AddPeerSuccess", interop.PublicKey(publicKey))
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}
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func removeFromNetmap(ctx storage.Context, key interop.PublicKey) {
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storageKey := append(candidatePrefix, key...)
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storage.Delete(ctx, storageKey)
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}
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func updateNetmapState(ctx storage.Context, key interop.PublicKey, state NodeState) {
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storageKey := append(candidatePrefix, key...)
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raw := storage.Get(ctx, storageKey).([]byte)
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if raw == nil {
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panic("peer is missing")
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}
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node := std.Deserialize(raw).(Node)
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node.State = state
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storage.Put(ctx, storageKey, std.Serialize(node))
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}
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func filterNetmap(ctx storage.Context) []Node {
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var (
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netmap = getNetmapNodes(ctx)
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result = []Node{}
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)
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for i := 0; i < len(netmap); i++ {
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item := netmap[i]
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if item.State != NodeStateOffline {
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result = append(result, item)
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}
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}
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return result
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}
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func getNetmapNodes(ctx storage.Context) []Node {
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result := []Node{}
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|
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it := storage.Find(ctx, candidatePrefix, storage.ValuesOnly|storage.DeserializeValues)
|
|
for iterator.Next(it) {
|
|
node := iterator.Value(it).(Node)
|
|
result = append(result, node)
|
|
}
|
|
|
|
return result
|
|
}
|
|
|
|
func getSnapshot(ctx storage.Context, key string) []Node {
|
|
data := storage.Get(ctx, key)
|
|
if data != nil {
|
|
return std.Deserialize(data.([]byte)).([]Node)
|
|
}
|
|
|
|
return []Node{}
|
|
}
|
|
|
|
func getConfig(ctx storage.Context, key interface{}) interface{} {
|
|
postfix := key.([]byte)
|
|
storageKey := append(configPrefix, postfix...)
|
|
|
|
return storage.Get(ctx, storageKey)
|
|
}
|
|
|
|
func setConfig(ctx storage.Context, key, val interface{}) {
|
|
postfix := key.([]byte)
|
|
storageKey := append(configPrefix, postfix...)
|
|
|
|
storage.Put(ctx, storageKey, val)
|
|
}
|
|
|
|
func cleanup(ctx storage.Context, epoch int) {
|
|
balanceContractAddr := storage.Get(ctx, balanceContractKey).(interop.Hash160)
|
|
contract.Call(balanceContractAddr, cleanupEpochMethod, contract.All, epoch)
|
|
|
|
containerContractAddr := storage.Get(ctx, containerContractKey).(interop.Hash160)
|
|
contract.Call(containerContractAddr, cleanupEpochMethod, contract.All, epoch)
|
|
}
|