frostfs-node/cmd/frostfs-cli/modules/object/nodes.go
Anton Nikiforov af3d6368b0
All checks were successful
Tests and linters / Run gofumpt (pull_request) Successful in 1m54s
DCO action / DCO (pull_request) Successful in 2m23s
Vulncheck / Vulncheck (pull_request) Successful in 2m34s
Pre-commit hooks / Pre-commit (pull_request) Successful in 3m2s
Build / Build Components (pull_request) Successful in 3m11s
Tests and linters / gopls check (pull_request) Successful in 3m26s
Tests and linters / Staticcheck (pull_request) Successful in 3m49s
Tests and linters / Lint (pull_request) Successful in 4m34s
Tests and linters / Tests (pull_request) Successful in 4m57s
Tests and linters / Tests with -race (pull_request) Successful in 6m28s
[#1530] cli: Keep order for required nodes in the result of object nodes
Signed-off-by: Anton Nikiforov <an.nikiforov@yadro.com>
2024-12-03 11:45:52 +03:00

582 lines
18 KiB
Go

package object
import (
"context"
"crypto/ecdsa"
"encoding/hex"
"encoding/json"
"errors"
"fmt"
"sync"
internalclient "git.frostfs.info/TrueCloudLab/frostfs-node/cmd/frostfs-cli/internal/client"
"git.frostfs.info/TrueCloudLab/frostfs-node/cmd/frostfs-cli/internal/commonflags"
"git.frostfs.info/TrueCloudLab/frostfs-node/cmd/frostfs-cli/internal/key"
commonCmd "git.frostfs.info/TrueCloudLab/frostfs-node/cmd/internal/common"
"git.frostfs.info/TrueCloudLab/frostfs-node/pkg/core/policy"
"git.frostfs.info/TrueCloudLab/frostfs-node/pkg/network"
"git.frostfs.info/TrueCloudLab/frostfs-node/pkg/services/object_manager/placement"
"git.frostfs.info/TrueCloudLab/frostfs-sdk-go/client"
apistatus "git.frostfs.info/TrueCloudLab/frostfs-sdk-go/client/status"
cid "git.frostfs.info/TrueCloudLab/frostfs-sdk-go/container/id"
netmapSDK "git.frostfs.info/TrueCloudLab/frostfs-sdk-go/netmap"
objectSDK "git.frostfs.info/TrueCloudLab/frostfs-sdk-go/object"
oid "git.frostfs.info/TrueCloudLab/frostfs-sdk-go/object/id"
"github.com/spf13/cobra"
"golang.org/x/sync/errgroup"
)
const (
verifyPresenceAllFlag = "verify-presence-all"
preferInternalAddressesFlag = "prefer-internal-addresses"
)
var (
errNoAvailableEndpoint = errors.New("failed to create client: no available endpoint")
errMalformedComplexObject = errors.New("object consists of EC and non EC parts")
)
type phyObject struct {
containerID cid.ID
objectID oid.ID
storedOnAllContainerNodes bool
ecHeader *ecHeader
}
type ecHeader struct {
index uint32
parent oid.ID
}
type objectPlacement struct {
requiredNodes []netmapSDK.NodeInfo
confirmedNodes []netmapSDK.NodeInfo
}
type objectNodesResult struct {
errors []error
placements map[oid.ID]objectPlacement
}
type ObjNodesDataObject struct {
ObjectID string `json:"object_id"`
RequiredNodes []string `json:"required_nodes,omitempty"`
ConfirmedNodes []string `json:"confirmed_nodes,omitempty"`
ECParentObjectID *string `json:"ec_parent_object_id,omitempty"`
ECIndex *uint32 `json:"ec_index,omitempty"`
}
type objNodesResultJSON struct {
ObjectID string `json:"object_id"`
DataObjects []ObjNodesDataObject `json:"data_objects,omitempty"`
Errors []string `json:"errors,omitempty"`
}
var objectNodesCmd = &cobra.Command{
Use: "nodes",
Short: "List of nodes where the object is stored",
Long: `List of nodes where the object should be stored and where it is actually stored.
Lock objects must exist on all nodes of the container.
For complex and EC objects, a node is considered to store an object if the node stores at least one part of the complex object or one chunk of the EC object.
By default, the actual storage of the object is checked only on the nodes that should store the object. To check all nodes, use the flag --verify-presence-all.`,
Run: objectNodes,
}
func initObjectNodesCmd() {
commonflags.Init(objectNodesCmd)
flags := objectNodesCmd.Flags()
flags.String(commonflags.CIDFlag, "", commonflags.CIDFlagUsage)
_ = objectGetCmd.MarkFlagRequired(commonflags.CIDFlag)
flags.String(commonflags.OIDFlag, "", commonflags.OIDFlagUsage)
_ = objectGetCmd.MarkFlagRequired(commonflags.OIDFlag)
flags.Bool(verifyPresenceAllFlag, false, "Verify the actual presence of the object on all netmap nodes.")
flags.Bool(commonflags.JSON, false, "Print information about the object placement as json.")
flags.Bool(preferInternalAddressesFlag, false, "Use internal addresses first to get object info.")
}
func objectNodes(cmd *cobra.Command, _ []string) {
var cnrID cid.ID
var objID oid.ID
readObjectAddress(cmd, &cnrID, &objID)
pk := key.GetOrGenerate(cmd)
cli := internalclient.GetSDKClientByFlag(cmd, pk, commonflags.RPC)
objects := getPhyObjects(cmd, cnrID, objID, cli, pk)
placementPolicy, netmap := getPlacementPolicyAndNetmap(cmd, cnrID, cli)
result := getRequiredPlacement(cmd, objects, placementPolicy, netmap)
getActualPlacement(cmd, netmap, pk, objects, result)
printPlacement(cmd, objID, objects, result)
}
func getPhyObjects(cmd *cobra.Command, cnrID cid.ID, objID oid.ID, cli *client.Client, pk *ecdsa.PrivateKey) []phyObject {
var addrObj oid.Address
addrObj.SetContainer(cnrID)
addrObj.SetObject(objID)
var prmHead internalclient.HeadObjectPrm
prmHead.SetClient(cli)
prmHead.SetAddress(addrObj)
prmHead.SetRawFlag(true)
Prepare(cmd, &prmHead)
readSession(cmd, &prmHead, pk, cnrID, objID)
res, err := internalclient.HeadObject(cmd.Context(), prmHead)
if err == nil {
obj := phyObject{
containerID: cnrID,
objectID: objID,
storedOnAllContainerNodes: res.Header().Type() == objectSDK.TypeLock ||
res.Header().Type() == objectSDK.TypeTombstone ||
len(res.Header().Children()) > 0,
}
if res.Header().ECHeader() != nil {
obj.ecHeader = &ecHeader{
index: res.Header().ECHeader().Index(),
parent: res.Header().ECHeader().Parent(),
}
}
return []phyObject{obj}
}
var errSplitInfo *objectSDK.SplitInfoError
if errors.As(err, &errSplitInfo) {
return getComplexObjectParts(cmd, cnrID, objID, cli, prmHead, errSplitInfo)
}
var ecInfoError *objectSDK.ECInfoError
if errors.As(err, &ecInfoError) {
return getECObjectChunks(cmd, cnrID, objID, ecInfoError)
}
commonCmd.ExitOnErr(cmd, "failed to get object info: %w", err)
return nil
}
func getComplexObjectParts(cmd *cobra.Command, cnrID cid.ID, objID oid.ID, cli *client.Client, prmHead internalclient.HeadObjectPrm, errSplitInfo *objectSDK.SplitInfoError) []phyObject {
members := getCompexObjectMembers(cmd, cnrID, objID, cli, prmHead, errSplitInfo)
return flattenComplexMembersIfECContainer(cmd, cnrID, members, prmHead)
}
func getCompexObjectMembers(cmd *cobra.Command, cnrID cid.ID, objID oid.ID, cli *client.Client, prmHead internalclient.HeadObjectPrm, errSplitInfo *objectSDK.SplitInfoError) []oid.ID {
splitInfo := errSplitInfo.SplitInfo()
if members, ok := tryGetSplitMembersByLinkingObject(cmd, splitInfo, prmHead, cnrID); ok {
return members
}
if members, ok := tryGetSplitMembersBySplitID(cmd, splitInfo, cli, cnrID); ok {
return members
}
return tryRestoreChainInReverse(cmd, splitInfo, prmHead, cli, cnrID, objID)
}
func flattenComplexMembersIfECContainer(cmd *cobra.Command, cnrID cid.ID, members []oid.ID, prmHead internalclient.HeadObjectPrm) []phyObject {
result := make([]phyObject, 0, len(members))
var hasNonEC, hasEC bool
var resultGuard sync.Mutex
if len(members) == 0 {
return result
}
prmHead.SetRawFlag(true) // to get an error instead of whole object
eg, egCtx := errgroup.WithContext(cmd.Context())
for idx := range members {
partObjID := members[idx]
eg.Go(func() error {
partHeadPrm := prmHead
var partAddr oid.Address
partAddr.SetContainer(cnrID)
partAddr.SetObject(partObjID)
partHeadPrm.SetAddress(partAddr)
obj, err := internalclient.HeadObject(egCtx, partHeadPrm)
if err != nil {
var ecInfoError *objectSDK.ECInfoError
if errors.As(err, &ecInfoError) {
resultGuard.Lock()
defer resultGuard.Unlock()
result = append(result, getECObjectChunks(cmd, cnrID, partObjID, ecInfoError)...)
hasEC = true
return nil
}
return err
}
if obj.Header().Type() != objectSDK.TypeRegular {
commonCmd.ExitOnErr(cmd, "failed to flatten parts of complex object: %w", fmt.Errorf("object '%s' with type '%s' is not supported as part of complex object", partAddr, obj.Header().Type()))
}
if len(obj.Header().Children()) > 0 {
// linking object is not data object, so skip it
return nil
}
resultGuard.Lock()
defer resultGuard.Unlock()
result = append(result, phyObject{
containerID: cnrID,
objectID: partObjID,
})
hasNonEC = true
return nil
})
}
commonCmd.ExitOnErr(cmd, "failed to flatten parts of complex object: %w", eg.Wait())
if hasEC && hasNonEC {
commonCmd.ExitOnErr(cmd, "failed to flatten parts of complex object: %w", errMalformedComplexObject)
}
return result
}
func getECObjectChunks(cmd *cobra.Command, cnrID cid.ID, objID oid.ID, errECInfo *objectSDK.ECInfoError) []phyObject {
ecInfo := errECInfo.ECInfo()
result := make([]phyObject, 0, len(ecInfo.Chunks))
for _, ch := range ecInfo.Chunks {
var chID oid.ID
err := chID.ReadFromV2(ch.ID)
if err != nil {
commonCmd.ExitOnErr(cmd, "failed to read EC chunk ID %w", err)
return nil
}
result = append(result, phyObject{
containerID: cnrID,
objectID: chID,
ecHeader: &ecHeader{
index: ch.Index,
parent: objID,
},
})
}
return result
}
func getPlacementPolicyAndNetmap(cmd *cobra.Command, cnrID cid.ID, cli *client.Client) (placementPolicy netmapSDK.PlacementPolicy, netmap *netmapSDK.NetMap) {
eg, egCtx := errgroup.WithContext(cmd.Context())
eg.Go(func() (e error) {
placementPolicy, e = getPlacementPolicy(egCtx, cnrID, cli)
return
})
eg.Go(func() (e error) {
netmap, e = getNetMap(egCtx, cli)
return
})
commonCmd.ExitOnErr(cmd, "rpc error: %w", eg.Wait())
return
}
func getPlacementPolicy(ctx context.Context, cnrID cid.ID, cli *client.Client) (netmapSDK.PlacementPolicy, error) {
prm := internalclient.GetContainerPrm{
Client: cli,
ClientParams: client.PrmContainerGet{
ContainerID: &cnrID,
},
}
res, err := internalclient.GetContainer(ctx, prm)
if err != nil {
return netmapSDK.PlacementPolicy{}, err
}
return res.Container().PlacementPolicy(), nil
}
func getNetMap(ctx context.Context, cli *client.Client) (*netmapSDK.NetMap, error) {
var prm internalclient.NetMapSnapshotPrm
prm.SetClient(cli)
res, err := internalclient.NetMapSnapshot(ctx, prm)
if err != nil {
return nil, err
}
nm := res.NetMap()
return &nm, nil
}
func getRequiredPlacement(cmd *cobra.Command, objects []phyObject, placementPolicy netmapSDK.PlacementPolicy, netmap *netmapSDK.NetMap) *objectNodesResult {
if policy.IsECPlacement(placementPolicy) {
return getECRequiredPlacement(cmd, objects, placementPolicy, netmap)
}
return getReplicaRequiredPlacement(cmd, objects, placementPolicy, netmap)
}
func getReplicaRequiredPlacement(cmd *cobra.Command, objects []phyObject, placementPolicy netmapSDK.PlacementPolicy, netmap *netmapSDK.NetMap) *objectNodesResult {
result := &objectNodesResult{
placements: make(map[oid.ID]objectPlacement),
}
placementBuilder := placement.NewNetworkMapBuilder(netmap)
for _, object := range objects {
placement, err := placementBuilder.BuildPlacement(object.containerID, &object.objectID, placementPolicy)
commonCmd.ExitOnErr(cmd, "failed to get required placement for object: %w", err)
for repIdx, rep := range placement {
numOfReplicas := placementPolicy.ReplicaDescriptor(repIdx).NumberOfObjects()
var nodeIdx uint32
for _, n := range rep {
if !object.storedOnAllContainerNodes && nodeIdx == numOfReplicas {
break
}
op := result.placements[object.objectID]
op.requiredNodes = append(op.requiredNodes, n)
result.placements[object.objectID] = op
nodeIdx++
}
}
}
return result
}
func getECRequiredPlacement(cmd *cobra.Command, objects []phyObject, placementPolicy netmapSDK.PlacementPolicy, netmap *netmapSDK.NetMap) *objectNodesResult {
result := &objectNodesResult{
placements: make(map[oid.ID]objectPlacement),
}
for _, object := range objects {
getECRequiredPlacementInternal(cmd, object, placementPolicy, netmap, result)
}
return result
}
func getECRequiredPlacementInternal(cmd *cobra.Command, object phyObject, placementPolicy netmapSDK.PlacementPolicy, netmap *netmapSDK.NetMap, result *objectNodesResult) {
placementObjectID := object.objectID
if object.ecHeader != nil {
placementObjectID = object.ecHeader.parent
}
placementBuilder := placement.NewNetworkMapBuilder(netmap)
placement, err := placementBuilder.BuildPlacement(object.containerID, &placementObjectID, placementPolicy)
commonCmd.ExitOnErr(cmd, "failed to get required placement: %w", err)
for _, vector := range placement {
if object.storedOnAllContainerNodes {
for _, node := range vector {
op := result.placements[object.objectID]
op.requiredNodes = append(op.requiredNodes, node)
result.placements[object.objectID] = op
}
continue
}
if object.ecHeader != nil {
chunkIdx := int(object.ecHeader.index)
nodeIdx := chunkIdx % len(vector)
node := vector[nodeIdx]
op := result.placements[object.objectID]
op.requiredNodes = append(op.requiredNodes, node)
result.placements[object.objectID] = op
}
}
}
func getActualPlacement(cmd *cobra.Command, netmap *netmapSDK.NetMap, pk *ecdsa.PrivateKey, objects []phyObject, result *objectNodesResult) {
resultMtx := &sync.Mutex{}
candidates := getNodesToCheckObjectExistance(cmd, netmap, result)
eg, egCtx := errgroup.WithContext(cmd.Context())
for _, cand := range candidates {
eg.Go(func() error {
cli, err := createClient(egCtx, cmd, cand, pk)
if err != nil {
resultMtx.Lock()
defer resultMtx.Unlock()
result.errors = append(result.errors, fmt.Errorf("failed to connect to node %s: %w", hex.EncodeToString(cand.PublicKey()), err))
return nil
}
for _, object := range objects {
eg.Go(func() error {
stored, err := isObjectStoredOnNode(egCtx, cmd, object.containerID, object.objectID, cli, pk)
resultMtx.Lock()
defer resultMtx.Unlock()
if err == nil && stored {
op := result.placements[object.objectID]
op.confirmedNodes = append(op.confirmedNodes, cand)
result.placements[object.objectID] = op
}
if err != nil {
result.errors = append(result.errors, fmt.Errorf("failed to check object %s existence on node %s: %w", object.objectID.EncodeToString(), hex.EncodeToString(cand.PublicKey()), err))
}
return nil
})
}
return nil
})
}
commonCmd.ExitOnErr(cmd, "failed to get actual placement: %w", eg.Wait())
}
func getNodesToCheckObjectExistance(cmd *cobra.Command, netmap *netmapSDK.NetMap, result *objectNodesResult) []netmapSDK.NodeInfo {
checkAllNodes, _ := cmd.Flags().GetBool(verifyPresenceAllFlag)
if checkAllNodes {
return netmap.Nodes()
}
var nodes []netmapSDK.NodeInfo
visited := make(map[uint64]struct{})
for _, p := range result.placements {
for _, node := range p.requiredNodes {
if _, ok := visited[node.Hash()]; !ok {
nodes = append(nodes, node)
visited[node.Hash()] = struct{}{}
}
}
}
return nodes
}
func createClient(ctx context.Context, cmd *cobra.Command, candidate netmapSDK.NodeInfo, pk *ecdsa.PrivateKey) (*client.Client, error) {
var cli *client.Client
var addresses []string
if preferInternal, _ := cmd.Flags().GetBool(preferInternalAddressesFlag); preferInternal {
candidate.IterateNetworkEndpoints(func(s string) bool {
addresses = append(addresses, s)
return false
})
addresses = append(addresses, candidate.ExternalAddresses()...)
} else {
addresses = append(addresses, candidate.ExternalAddresses()...)
candidate.IterateNetworkEndpoints(func(s string) bool {
addresses = append(addresses, s)
return false
})
}
var lastErr error
for _, address := range addresses {
var networkAddr network.Address
lastErr = networkAddr.FromString(address)
if lastErr != nil {
continue
}
cli, lastErr = internalclient.GetSDKClient(ctx, cmd, pk, networkAddr)
if lastErr == nil {
break
}
}
if lastErr != nil {
return nil, lastErr
}
if cli == nil {
return nil, errNoAvailableEndpoint
}
return cli, nil
}
func isObjectStoredOnNode(ctx context.Context, cmd *cobra.Command, cnrID cid.ID, objID oid.ID, cli *client.Client, pk *ecdsa.PrivateKey) (bool, error) {
var addrObj oid.Address
addrObj.SetContainer(cnrID)
addrObj.SetObject(objID)
var prmHead internalclient.HeadObjectPrm
prmHead.SetClient(cli)
prmHead.SetAddress(addrObj)
Prepare(cmd, &prmHead)
prmHead.SetTTL(1)
readSession(cmd, &prmHead, pk, cnrID, objID)
res, err := internalclient.HeadObject(ctx, prmHead)
if err == nil && res != nil {
return true, nil
}
var notFound *apistatus.ObjectNotFound
var removed *apistatus.ObjectAlreadyRemoved
if errors.As(err, &notFound) || errors.As(err, &removed) {
return false, nil
}
return false, err
}
func printPlacement(cmd *cobra.Command, objID oid.ID, objects []phyObject, result *objectNodesResult) {
if json, _ := cmd.Flags().GetBool(commonflags.JSON); json {
printObjectNodesAsJSON(cmd, objID, objects, result)
} else {
printObjectNodesAsText(cmd, objID, objects, result)
}
}
func printObjectNodesAsText(cmd *cobra.Command, objID oid.ID, objects []phyObject, result *objectNodesResult) {
fmt.Fprintf(cmd.OutOrStdout(), "Object %s stores payload in %d data objects:\n", objID.EncodeToString(), len(objects))
for _, object := range objects {
fmt.Fprintf(cmd.OutOrStdout(), "- %s\n", object.objectID)
if object.ecHeader != nil {
fmt.Fprintf(cmd.OutOrStdout(), "\tEC index: %d\n", object.ecHeader.index)
fmt.Fprintf(cmd.OutOrStdout(), "\tEC parent: %s\n", object.ecHeader.parent.EncodeToString())
}
op, ok := result.placements[object.objectID]
if !ok {
continue
}
if len(op.requiredNodes) > 0 {
fmt.Fprintf(cmd.OutOrStdout(), "\tRequired nodes:\n")
for _, node := range op.requiredNodes {
fmt.Fprintf(cmd.OutOrStdout(), "\t\t- %s\n", hex.EncodeToString(node.PublicKey()))
}
}
if len(op.confirmedNodes) > 0 {
fmt.Fprintf(cmd.OutOrStdout(), "\tConfirmed nodes:\n")
for _, node := range op.confirmedNodes {
fmt.Fprintf(cmd.OutOrStdout(), "\t\t- %s\n", hex.EncodeToString(node.PublicKey()))
}
}
}
if len(result.errors) == 0 {
return
}
fmt.Fprintf(cmd.OutOrStdout(), "Errors:\n")
for _, err := range result.errors {
fmt.Fprintf(cmd.OutOrStdout(), "\t%s\n", err.Error())
}
}
func printObjectNodesAsJSON(cmd *cobra.Command, objID oid.ID, objects []phyObject, result *objectNodesResult) {
jsonResult := &objNodesResultJSON{
ObjectID: objID.EncodeToString(),
}
for _, object := range objects {
do := ObjNodesDataObject{
ObjectID: object.objectID.EncodeToString(),
}
if object.ecHeader != nil {
do.ECIndex = &object.ecHeader.index
ecParent := object.ecHeader.parent.EncodeToString()
do.ECParentObjectID = &ecParent
}
op, ok := result.placements[object.objectID]
if !ok {
continue
}
for _, rn := range op.requiredNodes {
do.RequiredNodes = append(do.RequiredNodes, hex.EncodeToString(rn.PublicKey()))
}
for _, cn := range op.confirmedNodes {
do.ConfirmedNodes = append(do.ConfirmedNodes, hex.EncodeToString(cn.PublicKey()))
}
jsonResult.DataObjects = append(jsonResult.DataObjects, do)
}
for _, err := range result.errors {
jsonResult.Errors = append(jsonResult.Errors, err.Error())
}
b, err := json.Marshal(jsonResult)
commonCmd.ExitOnErr(cmd, "failed to marshal json: %w", err)
cmd.Println(string(b))
}