// connect builds up the ceph conn and default pool func (d *cephRBDVolumeDriver) connect(pool string) error { log.Printf("INFO: connect() to Ceph via go-ceph, with pool: %s", pool) // create the go-ceph Client Connection var cephConn *rados.Conn var err error if d.cluster == "" { cephConn, err = rados.NewConnWithUser(d.user) } else { // FIXME: TODO: can't seem to use a cluster name -- get error -22 from noahdesu/go-ceph/rados: // panic: Unable to create ceph connection to cluster=ceph with user=admin: rados: ret=-22 cephConn, err = rados.NewConnWithClusterAndUser(d.cluster, d.user) } if err != nil { log.Printf("ERROR: Unable to create ceph connection to cluster=%s with user=%s: %s", d.cluster, d.user, err) return err } // read ceph.conf and setup connection if d.config == "" { err = cephConn.ReadDefaultConfigFile() } else { err = cephConn.ReadConfigFile(d.config) } if err != nil { log.Printf("ERROR: Unable to read ceph config: %s", err) return err } err = cephConn.Connect() if err != nil { log.Printf("ERROR: Unable to connect to Ceph: %s", err) return err } // can now set conn in driver d.conn = cephConn // setup the requested pool context ioctx, err := d.goceph_openContext(pool) if err != nil { return err } d.ioctx = ioctx return nil }
// connect builds up the ceph conn and default pool func (d *cephRBDVolumeDriver) connect() { log.Println("INFO: connecting to Ceph and default pool context") d.m.Lock() defer d.m.Unlock() // create reusable go-ceph Client Connection var cephConn *rados.Conn var err error if d.cluster == "" { cephConn, err = rados.NewConnWithUser(d.user) } else { // FIXME: TODO: can't seem to use a cluster name -- get error -22 from go-ceph/rados: // panic: Unable to create ceph connection to cluster=ceph with user=admin: rados: ret=-22 cephConn, err = rados.NewConnWithClusterAndUser(d.cluster, d.user) } if err != nil { log.Panicf("ERROR: Unable to create ceph connection to cluster=%s with user=%s: %s", d.cluster, d.user, err) } // read ceph.conf and setup connection if d.config == "" { err = cephConn.ReadDefaultConfigFile() } else { err = cephConn.ReadConfigFile(d.config) } if err != nil { log.Panicf("ERROR: Unable to read ceph config: %s", err) } err = cephConn.Connect() if err != nil { log.Panicf("ERROR: Unable to connect to Ceph: %s", err) } // can now set conn in driver d.conn = cephConn // setup the default context (pool most likely to be used) defaultContext, err := d.openContext(d.defaultPool) if err != nil { log.Panicf("ERROR: Unable to connect to default Ceph Pool: %s", err) } d.defaultIoctx = defaultContext }
func (d *radosdesc) New() (factory.DrvInterface, error) { chunksize := uint64(defaultChunkSize) if setting.Chunksize != "" { if tmp, err := strconv.Atoi(setting.Chunksize); err != nil { return nil, fmt.Errorf("The chunksize parameter should be a number") } else { chunksize = uint64(tmp) } } var err error var conn *rados.Conn if setting.Username != "" { conn, err = rados.NewConnWithUser(setting.Username) } else { conn, err = rados.NewConn() } if err != nil { return nil, err } if err := conn.ReadDefaultConfigFile(); err != nil { return nil, err } if err := conn.Connect(); err != nil { return nil, err } ioctx, err := conn.OpenIOContext(setting.Poolname) if err != nil { return nil, err } return &radosdesc{ Ioctx: ioctx, Conn: conn, Chunksize: chunksize, }, nil }
func TestNewConnWithUser(t *testing.T) { _, err := rados.NewConnWithUser("admin") assert.Equal(t, err, nil) }