package control import ( "bytes" "fmt" "slices" "strings" "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/services/control" rawclient "git.frostfs.info/TrueCloudLab/frostfs-sdk-go/api/rpc/client" "github.com/mr-tron/base58" "github.com/spf13/cobra" ) const ( shardModeFlag = "mode" shardIDFlag = "id" shardAllFlag = "all" shardClearErrorsFlag = "clear-errors" ) // maps string command input to control.ShardMode. To support new mode, it's // enough to add the map entry. Modes are automatically printed in command help // messages. var mShardModes = map[string]struct { val control.ShardMode // flag to support shard mode implicitly without help message. The flag is set // for values which are not expected to be set by users but still supported // for developers. unsafe bool }{ "read-only": {val: control.ShardMode_READ_ONLY}, "read-write": {val: control.ShardMode_READ_WRITE}, "degraded-read-write": {val: control.ShardMode_DEGRADED, unsafe: true}, "degraded-read-only": {val: control.ShardMode_DEGRADED_READ_ONLY}, } // iterates over string representations of safe supported shard modes. Safe means // modes which are expected to be used by any user. All other supported modes // are for developers only. func iterateSafeShardModes(f func(string)) { for strMode, mode := range mShardModes { if !mode.unsafe { f(strMode) } } } // looks up for supported control.ShardMode represented by the given string. // Returns false if no corresponding mode exists. func lookUpShardModeFromString(str string) (control.ShardMode, bool) { mode, ok := mShardModes[str] if !ok { return control.ShardMode_SHARD_MODE_UNDEFINED, false } return mode.val, true } // looks up for string representation of supported shard mode. Returns false // if mode is not supported. func lookUpShardModeString(m control.ShardMode) (string, bool) { for strMode, mode := range mShardModes { if mode.val == m { return strMode, true } } return "", false } var setShardModeCmd = &cobra.Command{ Use: "set-mode", Short: "Set work mode of the shard", Long: "Set work mode of the shard", Run: setShardMode, } func initControlSetShardModeCmd() { initControlFlags(setShardModeCmd) flags := setShardModeCmd.Flags() flags.StringSlice(shardIDFlag, nil, "List of shard IDs in base58 encoding") flags.Bool(shardAllFlag, false, "Process all shards") modes := make([]string, 0) iterateSafeShardModes(func(strMode string) { modes = append(modes, "'"+strMode+"'") }) flags.String(shardModeFlag, "", fmt.Sprintf("New shard mode (%s)", strings.Join(modes, ", ")), ) _ = setShardModeCmd.MarkFlagRequired(shardModeFlag) flags.Bool(shardClearErrorsFlag, false, "Set shard error count to 0") setShardModeCmd.MarkFlagsMutuallyExclusive(shardIDFlag, shardAllFlag) } func setShardMode(cmd *cobra.Command, _ []string) { pk := key.Get(cmd) strMode, _ := cmd.Flags().GetString(shardModeFlag) mode, ok := lookUpShardModeFromString(strMode) if !ok { commonCmd.ExitOnErr(cmd, "", fmt.Errorf("unsupported mode %s", strMode)) } req := new(control.SetShardModeRequest) body := new(control.SetShardModeRequest_Body) req.SetBody(body) body.SetMode(mode) body.SetShard_ID(getShardIDList(cmd)) reset, _ := cmd.Flags().GetBool(shardClearErrorsFlag) body.SetResetErrorCounter(reset) signRequest(cmd, pk, req) cli := getClient(cmd, pk) var resp *control.SetShardModeResponse var err error err = cli.ExecRaw(func(client *rawclient.Client) error { resp, err = control.SetShardMode(client, req) return err }) commonCmd.ExitOnErr(cmd, "rpc error: %w", err) verifyResponse(cmd, resp.GetSignature(), resp.GetBody()) cmd.Println("Shard mode update request successfully sent.") } func getShardIDList(cmd *cobra.Command) [][]byte { all, _ := cmd.Flags().GetBool(shardAllFlag) if all { return nil } return getShardIDListFromIDFlag(cmd, true) } func getShardIDListFromIDFlag(cmd *cobra.Command, withAllFlag bool) [][]byte { sidList, _ := cmd.Flags().GetStringSlice(shardIDFlag) if len(sidList) == 0 { if withAllFlag { commonCmd.ExitOnErr(cmd, "", fmt.Errorf("either --%s or --%s flag must be provided", shardIDFlag, shardAllFlag)) } else { commonCmd.ExitOnErr(cmd, "", fmt.Errorf("--%s flag value must be provided", shardIDFlag)) } } // We can sort the ID list and perform this check without additional allocations, // but preserving the user order is a nice thing to have. // Also, this is a CLI, we don't care too much about this. seen := make(map[string]struct{}) for i := range sidList { if _, ok := seen[sidList[i]]; ok { commonCmd.ExitOnErr(cmd, "", fmt.Errorf("duplicated shard IDs: %s", sidList[i])) } seen[sidList[i]] = struct{}{} } res := make([][]byte, 0, len(sidList)) for i := range sidList { raw, err := base58.Decode(sidList[i]) commonCmd.ExitOnErr(cmd, "incorrect shard ID encoding: %w", err) res = append(res, raw) } slices.SortFunc(res, bytes.Compare) return res }