// +build !luminous,!mimic package admin import ( "strconv" ccom "github.com/ceph/go-ceph/common/commands" "github.com/ceph/go-ceph/internal/commands" "github.com/ceph/go-ceph/rados" ) // RadosCommander provides an interface to execute JSON-formatted commands that // allow the cephfs administrative functions to interact with the Ceph cluster. type RadosCommander = ccom.RadosCommander // FSAdmin is used to administrate CephFS within a ceph cluster. type FSAdmin struct { conn RadosCommander } // New creates an FSAdmin automatically based on the default ceph // configuration file. If more customization is needed, create a // *rados.Conn as you see fit and use NewFromConn to use that // connection with these administrative functions. func New() (*FSAdmin, error) { conn, err := rados.NewConn() if err != nil { return nil, err } err = conn.ReadDefaultConfigFile() if err != nil { return nil, err } err = conn.Connect() if err != nil { return nil, err } return NewFromConn(conn), nil } // NewFromConn creates an FSAdmin management object from a preexisting // rados connection. The existing connection can be rados.Conn or any // type implementing the RadosCommander interface. This may be useful // if the calling layer needs to inject additional logging, error handling, // fault injection, etc. func NewFromConn(conn RadosCommander) *FSAdmin { return &FSAdmin{conn} } func (fsa *FSAdmin) validate() error { if fsa.conn == nil { return rados.ErrNotConnected } return nil } // rawMgrCommand takes a byte buffer and sends it to the MGR as a command. // The buffer is expected to contain preformatted JSON. func (fsa *FSAdmin) rawMgrCommand(buf []byte) response { return commands.RawMgrCommand(fsa.conn, buf) } // marshalMgrCommand takes an generic interface{} value, converts it to JSON and // sends the json to the MGR as a command. func (fsa *FSAdmin) marshalMgrCommand(v interface{}) response { return commands.MarshalMgrCommand(fsa.conn, v) } // rawMonCommand takes a byte buffer and sends it to the MON as a command. // The buffer is expected to contain preformatted JSON. func (fsa *FSAdmin) rawMonCommand(buf []byte) response { return commands.RawMonCommand(fsa.conn, buf) } // marshalMonCommand takes an generic interface{} value, converts it to JSON and // sends the json to the MGR as a command. func (fsa *FSAdmin) marshalMonCommand(v interface{}) response { return commands.MarshalMonCommand(fsa.conn, v) } type listNamedResult struct { Name string `json:"name"` } func parseListNames(res response) ([]string, error) { var r []listNamedResult if err := res.NoStatus().Unmarshal(&r).End(); err != nil { return nil, err } vl := make([]string, len(r)) for i := range r { vl[i] = r[i].Name } return vl, nil } // parsePathResponse returns a cleaned up path from requests that get a path // unless an error is encountered, then an error is returned. func parsePathResponse(res response) (string, error) { if res2 := res.NoStatus(); !res2.Ok() { return "", res.End() } b := res.Body() // if there's a trailing newline in the buffer strip it. // ceph assumes a CLI wants the output of the buffer and there's // no format=json mode available currently. for len(b) >= 1 && b[len(b)-1] == '\n' { b = b[:len(b)-1] } return string(b), nil } // modeString converts a unix-style mode value to a string-ified version in an // octal representation (e.g. "777", "700", etc). This format is expected by // some of the ceph JSON command inputs. func modeString(m int, force bool) string { if force || m != 0 { return strconv.FormatInt(int64(m), 8) } return "" } // uint64String converts a uint64 to a string. Some of the ceph json commands // can take a string or "int" (as a string). This is a common function for // doing that conversion. func uint64String(v uint64) string { return strconv.FormatUint(uint64(v), 10) }