//
// readSingleDocument is called by readSingleRecord when it has determined that the server
// has sent a docuemnt ('d'), not flat data ('f') or raw bytes ('b').
// It should be called *after* the single byte below on the first line has been already
// read and determined to be 'd'. The rest the stream (NOT including the EOT byte) will
// be read. The serialized document will be turned into an oschema.ODocument.
//
// Writing byte (1 byte): 100 [OChannelBinaryServer] <- 'd'=document ('f'=flat data, 'b'=raw bytes)
// Writing short (2 bytes): 11 [OChannelBinaryServer] <- cluster-id (RID part 1)
// Writing long (8 bytes): 0 [OChannelBinaryServer] <- cluster-pos (RID part 2)
// Writing int (4 bytes): 1 [OChannelBinaryServer] <- version
// Writing bytes (4+26=30 bytes): [0, 14, 80, 97, 116, ... , 110, 107, 1] <- serialized record
//
func readSingleDocument(dbc *DBClient) (*oschema.ODocument, error) {
clusterId, err := rw.ReadShort(dbc.conx)
if err != nil {
return nil, oerror.NewTrace(err)
}
clusterPos, err := rw.ReadLong(dbc.conx)
if err != nil {
return nil, oerror.NewTrace(err)
}
recVersion, err := rw.ReadInt(dbc.conx)
if err != nil {
return nil, oerror.NewTrace(err)
}
recBytes, err := rw.ReadBytes(dbc.conx)
if err != nil {
return nil, oerror.NewTrace(err)
}
rid := oschema.ORID{ClusterID: clusterId, ClusterPos: clusterPos}
doc, err := createDocumentFromBytes(rid, recVersion, recBytes, dbc)
ogl.Debugf("::single record doc:::::: %v\n", doc)
return doc, err
}
func readEmbeddedLinkBag(rdr io.Reader) (*oschema.OLinkBag, error) {
bs := make([]byte, 1)
n, err := rdr.Read(bs)
if err != nil {
return nil, oerror.NewTrace(err)
}
if n != 1 {
return nil, oerror.IncorrectNetworkRead{Expected: 1, Actual: n}
}
if bs[0] == 1 {
uuid, err := readLinkBagUUID(rdr)
if err != nil {
return nil, oerror.NewTrace(err)
}
ogl.Debugf("read uuid %v - now what?\n", uuid)
} else {
// if b wasn't zero, then there's no UUID and b was the first byte of an int32
// specifying the size of the embedded bag collection
// TODO: I'm not sure this is the right thing - the OrientDB is pretty hazy on how this works
switch rdr.(type) {
case *bytes.Buffer:
buf := rdr.(*bytes.Buffer)
buf.UnreadByte()
case *obuf.ReadBuf:
buf := rdr.(*obuf.ReadBuf)
buf.UnreadByte()
default:
panic("Unknown type of buffer in binserde#readEmbeddedLinkBag")
}
}
bagsz, err := rw.ReadInt(rdr)
if err != nil {
return nil, oerror.NewTrace(err)
}
links := make([]*oschema.OLink, bagsz)
for i := int32(0); i < bagsz; i++ {
clusterID, err := rw.ReadShort(rdr)
if err != nil {
return nil, oerror.NewTrace(err)
}
clusterPos, err := rw.ReadLong(rdr)
if err != nil {
return nil, oerror.NewTrace(err)
}
orid := oschema.ORID{ClusterID: clusterID, ClusterPos: clusterPos}
links[i] = &oschema.OLink{RID: orid}
}
return oschema.NewOLinkBag(links), nil
}
//
// readSingleRecord should be called to read a single record from the DBClient connection
// stream (from a db query/command). In particular, this function should be called
// after the resultType has been read from the stream and resultType == 'r' (byte 114).
// When this is called the 'r' byte shown below should have already been read. This
// function will then read everything else shown here - including the serialized record,
// but *NOT* including the byte after the serialized record (which is 0 to indicate
// End of Transmission).
//
// Writing byte (1 byte): 114 [OChannelBinaryServer] <- 'r' (type=single-record)
// Writing short (2 bytes): 0 [OChannelBinaryServer] <- 0=full record (-2=null, -3=RID only)
// Writing byte (1 byte): 100 [OChannelBinaryServer] <- 'd'=document ('f'=flat data, 'b'=raw bytes)
// Writing short (2 bytes): 11 [OChannelBinaryServer] <- cluster-id (RID part 1)
// Writing long (8 bytes): 0 [OChannelBinaryServer] <- cluster-pos (RID part 2)
// Writing int (4 bytes): 1 [OChannelBinaryServer] <- version
// Writing bytes (4+26=30 bytes): [0, 14, 80, 97, 116, ... , 110, 107, 1] <- serialized record
//
// A new single ODocument pointer is returned.
//
// TODO: this method needs to determine how to handle 'f' (flat data) and 'b' (raw bytes)
//
func readSingleRecord(dbc *DBClient) (*oschema.ODocument, error) {
var doc *oschema.ODocument
resultType, err := rw.ReadShort(dbc.conx)
if err != nil {
return nil, oerror.NewTrace(err)
}
if resultType == RecordNull { // null record
// do nothing - return the zero values of the return types
return nil, nil
} else if resultType == RecordRID {
orid, err := readRID(dbc)
if err != nil {
return nil, oerror.NewTrace(err)
}
doc = oschema.NewDocument("")
doc.RID = orid
ogl.Warn(fmt.Sprintf("readSingleRecord :: Code path not seen before!!: SQLCommand resulted in RID: %s\n", orid))
// TODO: would now load that record from the DB if the user (Go SQL API) wants it
return doc, nil
} else if resultType != int16(0) {
_, file, line, _ := runtime.Caller(0)
return nil, fmt.Errorf("Unexpected resultType in SQLCommand (file: %s; line %d): %d",
file, line+1, resultType)
}
// if get here then have a full record, which can be in one of three formats:
// - "flat data"
// - "raw bytes"
// - "document"
recType, err := rw.ReadByte(dbc.conx)
if err != nil {
return nil, oerror.NewTrace(err)
}
if recType == byte('d') {
return readSingleDocument(dbc)
} else if recType == byte('f') {
return readFlatDataRecord(dbc) // ???
} else if recType == byte('b') {
return readRawBytesRecord(dbc) // ???
} else {
_, file, line, _ := runtime.Caller(0)
return nil, fmt.Errorf("Unexpected record type. Expected 'd', 'f' or 'b', but was %v (file: %s; line %d)",
recType, file, line+1)
}
}
func (ols OLinkSerializer) Deserialize(buf *bytes.Buffer) (interface{}, error) {
clusterID, err := rw.ReadShort(buf)
if err != nil {
return nil, oerror.NewTrace(err)
}
clusterPos, err := rw.ReadLong(buf)
if err != nil {
return nil, oerror.NewTrace(err)
}
rid := oschema.ORID{ClusterID: clusterID, ClusterPos: clusterPos}
return &oschema.OLink{RID: rid}, nil
}
//
// readRID should be called when a single record (as opposed to a collection of
// records) is returned from a db query/command (REQUEST_COMMAND only ???).
// That is when the server sends back:
// 1) Writing byte (1 byte): 0 [OChannelBinaryServer] -> SUCCESS
// 2) Writing int (4 bytes): 192 [OChannelBinaryServer] -> session-id
// 3) Writing byte (1 byte): 114 [OChannelBinaryServer] -> 'r' (single record)
// 4) Writing short (2 bytes): 0 [OChannelBinaryServer] -> full record (not null, not RID only)
// Line 3 can be 'l' or possibly other things. For 'l' call readResultSet.
// Line 4 can be 0=full-record, -2=null, -3=RID only. For -3, call readRID. For 0, call this readSingleDocument.
//
func readRID(dbc *DBClient) (oschema.ORID, error) {
// svr response: (-3:short)(cluster-id:short)(cluster-position:long)
// TODO: impl me -> in the future this may need to call loadRecord for the RID and return the ODocument
clusterID, err := rw.ReadShort(dbc.conx)
if err != nil {
return oschema.NewORID(), oerror.NewTrace(err)
}
clusterPos, err := rw.ReadLong(dbc.conx)
if err != nil {
return oschema.NewORID(), oerror.NewTrace(err)
}
return oschema.ORID{ClusterID: clusterID, ClusterPos: clusterPos}, nil
}
//
// AddCluster adds a cluster to the current database. It is a
// database-level operation, so OpenDatabase must have already
// been called first in order to start a session with the database.
// The clusterID is returned if the command is successful.
//
func AddCluster(dbc *DBClient, clusterName string) (clusterID int16, err error) {
dbc.buf.Reset()
err = writeCommandAndSessionId(dbc, REQUEST_DATACLUSTER_ADD)
if err != nil {
return int16(0), oerror.NewTrace(err)
}
cname := strings.ToLower(clusterName)
err = rw.WriteString(dbc.buf, cname)
if err != nil {
return int16(0), oerror.NewTrace(err)
}
err = rw.WriteShort(dbc.buf, -1) // -1 means generate new cluster id
if err != nil {
return int16(0), oerror.NewTrace(err)
}
// send to the OrientDB server
_, err = dbc.conx.Write(dbc.buf.Bytes())
if err != nil {
return int16(0), oerror.NewTrace(err)
}
/* ---[ Read Response ]--- */
err = readStatusCodeAndSessionId(dbc)
if err != nil {
return int16(0), oerror.NewTrace(err)
}
clusterID, err = rw.ReadShort(dbc.conx)
if err != nil {
return clusterID, oerror.NewTrace(err)
}
dbc.currDB.Clusters = append(dbc.currDB.Clusters, OCluster{cname, clusterID})
return clusterID, err
}
//
// readResultSet should be called for collections (resultType = 'l')
// from a SQLQuery call.
//
func readResultSet(dbc *DBClient) ([]*oschema.ODocument, error) {
// for Collection
// next val is: (collection-size:int)
// and then each record is serialized according to format:
// (0:short)(record-type:byte)(cluster-id:short)(cluster-position:long)(record-version:int)(record-content:bytes)
resultSetSize, err := rw.ReadInt(dbc.conx)
if err != nil {
return nil, oerror.NewTrace(err)
}
rsize := int(resultSetSize)
docs := make([]*oschema.ODocument, rsize)
for i := 0; i < rsize; i++ {
// TODO: move code below to readRecordInResultSet
// this apparently should always be zero for serialized records -> not sure it's meaning
zero, err := rw.ReadShort(dbc.conx)
if err != nil {
return nil, oerror.NewTrace(err)
}
if zero != int16(0) {
return nil, fmt.Errorf("ERROR: readResultSet: expected short value of 0 but is %d", zero)
}
recType, err := rw.ReadByte(dbc.conx)
if err != nil {
return nil, oerror.NewTrace(err)
}
// TODO: may need to check recType here => not sure that clusterId, clusterPos and version follow next if
// type is 'b' (raw bytes) or 'f' (flat record)
// see the readSingleDocument method (and probably call that one instead?)
clusterId, err := rw.ReadShort(dbc.conx)
if err != nil {
return nil, oerror.NewTrace(err)
}
clusterPos, err := rw.ReadLong(dbc.conx)
if err != nil {
return nil, oerror.NewTrace(err)
}
recVersion, err := rw.ReadInt(dbc.conx)
if err != nil {
return nil, oerror.NewTrace(err)
}
if recType == byte('d') { // Document
var doc *oschema.ODocument
rid := oschema.ORID{ClusterID: clusterId, ClusterPos: clusterPos}
recBytes, err := rw.ReadBytes(dbc.conx)
if err != nil {
return nil, oerror.NewTrace(err)
}
doc, err = createDocumentFromBytes(rid, recVersion, recBytes, dbc)
if err != nil {
return nil, oerror.NewTrace(err)
}
docs[i] = doc
} else {
_, file, line, _ := runtime.Caller(0)
return nil, fmt.Errorf("%v: %v: Record type %v is not yet supported", file, line+1, recType)
}
} // end for loop
// end, err := rw.ReadByte(dbc.conx)
// if err != nil {
// return nil, oerror.NewTrace(err)
// }
// if end != byte(0) {
// return nil, fmt.Errorf("Final Byte read from collection result set was not 0, but was: %v", end)
// }
return docs, nil
}
//
// OpenDatabase sends the REQUEST_DB_OPEN command to the OrientDB server to
// open the db in read/write mode. The database name and type are required, plus
// username and password. Database type should be one of the obinary constants:
// DocumentDBType or GraphDBType.
//
func OpenDatabase(dbc *DBClient, dbname string, dbtype constants.DatabaseType, username, passw string) error {
buf := dbc.buf
buf.Reset()
// first byte specifies request type
err := rw.WriteByte(buf, REQUEST_DB_OPEN)
if err != nil {
return oerror.NewTrace(err)
}
// session-id - send a negative number to create a new server-side conx
err = rw.WriteInt(buf, RequestNewSession)
if err != nil {
return oerror.NewTrace(err)
}
err = rw.WriteStrings(buf, DriverName, DriverVersion)
if err != nil {
return oerror.NewTrace(err)
}
err = rw.WriteShort(buf, dbc.binaryProtocolVersion)
if err != nil {
return oerror.NewTrace(err)
}
// dbclient id - send as null, but cannot be null if clustered config
// TODO: change to use dbc.clusteredConfig once that is added
err = rw.WriteNull(buf)
if err != nil {
return oerror.NewTrace(err)
}
// serialization-impl
err = rw.WriteString(buf, dbc.serializationType)
if err != nil {
return oerror.NewTrace(err)
}
// token-session // TODO: hardcoded as false for now -> change later based on ClientOptions settings
err = rw.WriteBool(buf, false)
if err != nil {
return oerror.NewTrace(err)
}
// dbname, dbtype, username, password
err = rw.WriteStrings(buf, dbname, string(dbtype), username, passw)
if err != nil {
return oerror.NewTrace(err)
}
// now send to the OrientDB server
_, err = dbc.conx.Write(buf.Bytes())
if err != nil {
return oerror.NewTrace(err)
}
/* ---[ read back response ]--- */
// first byte indicates success/error
status, err := rw.ReadByte(dbc.conx)
if err != nil {
return oerror.NewTrace(err)
}
dbc.currDB = NewDatabase(dbname, dbtype)
// the first int returned is the session id sent - which was the `RequestNewSession` sentinel
sessionValSent, err := rw.ReadInt(dbc.conx)
if err != nil {
return oerror.NewTrace(err)
}
if sessionValSent != RequestNewSession {
return errors.New("Unexpected Error: Server did not return expected session-request-val that was sent")
}
// if status returned was ERROR, then the rest of server data is the exception info
if status != RESPONSE_STATUS_OK {
exceptions, err := rw.ReadErrorResponse(dbc.conx)
if err != nil {
return oerror.NewTrace(err)
}
return fmt.Errorf("Server Error(s): %v", exceptions)
}
// for the REQUEST_DB_OPEN case, another int is returned which is the new sessionId
sessionId, err := rw.ReadInt(dbc.conx)
if err != nil {
return oerror.NewTrace(err)
}
dbc.sessionId = sessionId
// next is the token, which may be null
tokenBytes, err := rw.ReadBytes(dbc.conx)
if err != nil {
return oerror.NewTrace(err)
}
dbc.token = tokenBytes
// array of cluster info in this db // TODO: do we need to retain all this in memory?
numClusters, err := rw.ReadShort(dbc.conx)
if err != nil {
return oerror.NewTrace(err)
}
clusters := make([]OCluster, 0, numClusters)
for i := 0; i < int(numClusters); i++ {
clusterName, err := rw.ReadString(dbc.conx)
if err != nil {
return oerror.NewTrace(err)
}
clusterId, err := rw.ReadShort(dbc.conx)
if err != nil {
return oerror.NewTrace(err)
}
clusters = append(clusters, OCluster{Name: clusterName, Id: clusterId})
}
dbc.currDB.Clusters = clusters
// cluster-config - bytes - null unless running server in clustered config
// TODO: treating this as an opaque blob for now
clusterCfg, err := rw.ReadBytes(dbc.conx)
if err != nil {
return oerror.NewTrace(err)
}
dbc.currDB.ClustCfg = clusterCfg
// orientdb server release - throwing away for now // TODO: need this?
_, err = rw.ReadString(dbc.conx)
if err != nil {
return oerror.NewTrace(err)
}
//
/* ---[ load #0:0 - config record ]--- */
schemaRIDStr, err := loadConfigRecord(dbc)
if err != nil {
return oerror.NewTrace(err)
}
clusterID, clusterPos, err := parseRid(schemaRIDStr)
if err != nil {
return oerror.NewTrace(err)
}
//
/* ---[ load #0:1 - schema record ]--- */
err = loadSchema(dbc, oschema.ORID{ClusterID: clusterID, ClusterPos: clusterPos})
if err != nil {
return oerror.NewTrace(err)
}
return nil
}
