Exemple #1
0
//
// SQLCommand executes SQL commands that are not queries. Any SQL statement
// that does not being with "SELECT" should be sent here.  All SELECT
// statements should go to the SQLQuery function.
//
// Commands can be optionally paramterized using ?, such as:
//
//     INSERT INTO Foo VALUES(a, b, c) (?, ?, ?)
//
// The values for the placeholders (currently) must be provided as strings.
//
// Constraints (for now):
// 1. cmds with only simple positional parameters allowed
// 2. cmds with lists of parameters ("complex") NOT allowed
// 3. parameter types allowed: string only for now
//
// SQL commands in OrientDB tend to return one of two types - a string return value or
// one or more documents. The meaning are specific to the type of query.
//
// ----------------
// For example:
// ----------------
//  for a DELETE statement:
//    retval = number of rows deleted (as a string)
//    docs = empty list
//
//  for an INSERT statement:
//    n = ?
//    docs = ?
//
//  for an CREATE CLASS statement:
//    retval = cluster id of the class (TODO: or it might be number of classes in cluster)
//    docs = empty list
//
//  for an DROP CLASS statement:
//    retval = "true" if successful, "" if class didn't exist (technically it returns null)
//    docs = empty list
//
func SQLCommand(dbc *DBClient, sql string, params ...string) (retval string, docs []*oschema.ODocument, err error) {
	dbc.buf.Reset()

	err = writeCommandAndSessionId(dbc, REQUEST_COMMAND)
	if err != nil {
		return "", nil, oerror.NewTrace(err)
	}

	mode := byte('s') // synchronous only supported for now
	err = rw.WriteByte(dbc.buf, mode)
	if err != nil {
		return "", nil, oerror.NewTrace(err)
	}

	// need a separate buffer to write the command-payload to, so
	// we can calculate its length before writing it to main dbc.buf
	commandBuf := new(bytes.Buffer)

	// "classname" (command-type, really) and the sql command
	err = rw.WriteStrings(commandBuf, "c", sql) // c for command(non-idempotent)
	if err != nil {
		return "", nil, oerror.NewTrace(err)
	}

	// SQLCommand
	//  (text:string)
	//  (has-simple-parameters:boolean)
	//  (simple-paremeters:bytes[])  -> serialized Map (EMBEDDEDMAP??)
	//  (has-complex-parameters:boolean)
	//  (complex-parameters:bytes[])  -> serialized Map (EMBEDDEDMAP??)

	serializedParams, err := serializeSimpleSQLParams(dbc, params)
	if err != nil {
		return "", nil, oerror.NewTrace(err)
	}

	// has-simple-parameters
	err = rw.WriteBool(commandBuf, serializedParams != nil)
	if err != nil {
		return "", nil, oerror.NewTrace(err)
	}

	if serializedParams != nil {
		rw.WriteBytes(commandBuf, serializedParams)
	}

	// FIXME: no complex parameters yet since I don't understand what they are
	// has-complex-paramters => HARDCODING FALSE FOR NOW
	err = rw.WriteBool(commandBuf, false)
	if err != nil {
		return "", nil, oerror.NewTrace(err)
	}

	serializedCmd := commandBuf.Bytes()

	// command-payload-length and command-payload
	err = rw.WriteBytes(dbc.buf, serializedCmd)
	if err != nil {
		return "", nil, oerror.NewTrace(err)
	}

	// send to the OrientDB server
	_, err = dbc.conx.Write(dbc.buf.Bytes())
	if err != nil {
		return "", nil, oerror.NewTrace(err)
	}

	/* ---[ Read Response ]--- */

	err = readStatusCodeAndSessionId(dbc)
	if err != nil {
		return "", nil, oerror.NewTrace(err)
	}

	// for synchronous commands the remaining content is an array of form:
	// [(synch-result-type:byte)[(synch-result-content:?)]]+
	// so the final value will by byte(0) to indicate the end of the array
	// and we must use a loop here

	for {
		resType, err := rw.ReadByte(dbc.conx)
		if err != nil {
			return "", nil, oerror.NewTrace(err)
		}
		// This implementation assumes that SQLCommand can never have "supplementary records"
		// from an extended fetchPlan
		if resType == byte(0) {
			break
		}

		resultType := rune(resType)
		ogl.Debugf("resultType for SQLCommand: %v (%s)\n", resultType, string(rune(resultType)))

		if resultType == 'n' { // null result
			// do nothing - anything need to be done here?

		} else if resultType == 'r' { // single record
			doc, err := readSingleRecord(dbc)
			if err != nil {
				return "", nil, oerror.NewTrace(err)
			}

			ogl.Debugf("r>doc = %v\n", doc) // DEBUG
			if doc != nil {
				docs = make([]*oschema.ODocument, 1)
				docs[0] = doc
			}

		} else if resultType == 'l' { // collection of records
			ogl.Debugln("... resultType l")
			collectionDocs, err := readResultSet(dbc)
			if err != nil {
				return "", nil, oerror.NewTrace(err)
			}

			if docs == nil {
				docs = collectionDocs
			} else {
				docs = append(docs, collectionDocs...)
			}

		} else if resultType == 'a' { // serialized type
			serializedRec, err := rw.ReadBytes(dbc.conx)
			if err != nil {
				return "", nil, oerror.NewTrace(err)
			}
			// TODO: for now I'm going to assume that this always just returns a string
			//       need a use case that violates this assumption
			retval = string(serializedRec)
			if err != nil {
				return "", nil, oerror.NewTrace(err)
			}

		} else {
			_, file, line, _ := runtime.Caller(0)
			// TODO: I've not yet tested this route of code -> how do so?
			ogl.Warnf(">> Got back resultType %v (%v): Not yet supported: line:%d; file:%s\n",
				resultType, string(rune(resultType)), line, file)
			// TODO: returning here is NOT the correct long-term behavior
			return "", nil, fmt.Errorf("Got back resultType %v (%v): Not yet supported: line:%d; file:%s\n",
				resultType, string(rune(resultType)), line, file)
		}
	}

	return retval, docs, err
}
Exemple #2
0
//
// FetchEntriesOfRemoteLinkBag fills in the links of an OLinkBag that is remote
// (tree-based) rather than embedded.  This function will fill in the links
// of the passed in OLinkBag, rather than returning the new links. The Links
// will have RIDs only, not full Records (ODocuments).  If you then want the
// Records filled in, call the ResolveLinks function.
//
func FetchEntriesOfRemoteLinkBag(dbc *DBClient, linkBag *oschema.OLinkBag, inclusive bool) error {
	var (
		firstLink *oschema.OLink
		linkSerde binserde.OBinaryTypeSerializer
		err       error
	)

	firstLink, err = FetchFirstKeyOfRemoteLinkBag(dbc, linkBag)
	if err != nil {
		return oerror.NewTrace(err)
	}

	dbc.buf.Reset()

	err = writeCommandAndSessionId(dbc, REQUEST_SBTREE_BONSAI_GET_ENTRIES_MAJOR)
	if err != nil {
		return oerror.NewTrace(err)
	}

	err = writeLinkBagCollectionPointer(dbc.buf, linkBag)
	if err != nil {
		return oerror.NewTrace(err)
	}

	typeByte := byte(9)
	linkSerde = binserde.TypeSerializers[typeByte] // the OLinkSerializer

	linkBytes, err := linkSerde.Serialize(firstLink)
	if err != nil {
		return oerror.NewTrace(err)
	}

	err = rw.WriteBytes(dbc.buf, linkBytes)
	if err != nil {
		return oerror.NewTrace(err)
	}

	err = rw.WriteBool(dbc.buf, inclusive)
	if err != nil {
		return oerror.NewTrace(err)
	}

	// copied from Java client OSBTreeBonsaiRemote#fetchEntriesMajor
	if dbc.binaryProtocolVersion >= 21 {
		err = rw.WriteInt(dbc.buf, 128)
	}

	// send to the OrientDB server
	_, err = dbc.conx.Write(dbc.buf.Bytes())
	if err != nil {
		return oerror.NewTrace(err)
	}

	/* ---[ Read Response ]--- */

	err = readStatusCodeAndSessionId(dbc)
	if err != nil {
		return oerror.NewTrace(err)
	}

	linkEntryBytes, err := rw.ReadBytes(dbc.conx)
	if err != nil {
		return oerror.NewTrace(err)
	}

	// all the rest of the response from the server in in this byte slice so
	// we can reset the dbc.buf and reuse it to deserialize the serialized links
	dbc.buf.Reset()
	// ignoring error since doc says this method panics rather than return
	// non-nil error
	n, _ := dbc.buf.Write(linkEntryBytes)
	if n != len(linkEntryBytes) {
		return fmt.Errorf("Unexpected error when writing bytes to bytes.Buffer")
	}

	nrecs, err := rw.ReadInt(dbc.buf)
	if err != nil {
		return oerror.NewTrace(err)
	}

	var result interface{}
	nr := int(nrecs)
	// loop over all the serialized links
	for i := 0; i < nr; i++ {
		result, err = linkSerde.Deserialize(dbc.buf)
		if err != nil {
			return oerror.NewTrace(err)
		}
		linkBag.AddLink(result.(*oschema.OLink))

		// FIXME: for some reason the server returns a serialized link
		//        followed by an integer (so far always a 1 in my expts).
		//        Not sure what to do with this int, so ignore for now
		intval, err := rw.ReadInt(dbc.buf)
		if err != nil {
			return oerror.NewTrace(err)
		}
		if intval != int32(1) {
			ogl.Warnf("DEBUG: Found a use case where the val pair of a link was not 1: %d\n", intval)
		}
	}

	return nil
}
Exemple #3
0
//
// UpdateRecord should be used update an existing record in the OrientDB database.
// It does the REQUEST_RECORD_UPDATE OrientDB cmd (network binary protocol)
//
func UpdateRecord(dbc *DBClient, doc *oschema.ODocument) error {
	dbc.buf.Reset()

	err := writeCommandAndSessionId(dbc, REQUEST_RECORD_UPDATE)
	if err != nil {
		return oerror.NewTrace(err)
	}

	if doc.RID.ClusterID < 0 || doc.RID.ClusterPos < 0 {
		return errors.New("Document is not updateable - has negative RID values")
	}

	err = rw.WriteShort(dbc.buf, doc.RID.ClusterID)
	if err != nil {
		return oerror.NewTrace(err)
	}

	err = rw.WriteLong(dbc.buf, doc.RID.ClusterPos)
	if err != nil {
		return oerror.NewTrace(err)
	}

	// update-content flag
	err = rw.WriteBool(dbc.buf, true)
	if err != nil {
		return oerror.NewTrace(err)
	}

	// serialized-doc
	serde := dbc.RecordSerDes[int(dbc.serializationVersion)]

	// this writes the serialized record to dbc.buf
	serializedBytes, err := serde.Serialize(dbc, doc)
	if err != nil {
		return oerror.NewTrace(err)
	}

	err = rw.WriteBytes(dbc.buf, serializedBytes)
	if err != nil {
		return oerror.NewTrace(err)
	}

	// record version
	err = rw.WriteInt(dbc.buf, doc.Version)
	if err != nil {
		return oerror.NewTrace(err)
	}

	// record-type: document
	err = rw.WriteByte(dbc.buf, byte('d')) // TODO: how support 'b' (raw bytes) & 'f' (flat data)?
	if err != nil {
		return oerror.NewTrace(err)
	}

	// mode: synchronous
	err = rw.WriteByte(dbc.buf, 0x0)
	if err != nil {
		return oerror.NewTrace(err)
	}

	// send to the OrientDB server
	_, err = dbc.conx.Write(dbc.buf.Bytes())
	if err != nil {
		return oerror.NewTrace(err)
	}

	/* ---[ Read Response ]--- */

	err = readStatusCodeAndSessionId(dbc)
	if err != nil {
		return oerror.NewTrace(err)
	}

	doc.Version, err = rw.ReadInt(dbc.conx)
	if err != nil {
		return oerror.NewTrace(err)
	}

	nCollChanges, err := rw.ReadInt(dbc.conx)
	if err != nil {
		return oerror.NewTrace(err)
	}

	if nCollChanges != 0 {
		// if > 0, then have to deal with RidBag mgmt:
		// [(uuid-most-sig-bits:long)(uuid-least-sig-bits:long)(updated-file-id:long)(updated-page-index:long)(updated-page-offset:int)]
		panic("CreateRecord: Found case where number-collection-changes is not zero -> log case and impl code to handle")
	}

	return nil
}
Exemple #4
0
//
// FetchRecordByRID takes an ORID and reads that record from the database.
// NOTE: for now I'm assuming all records are Documents (they can also be "raw bytes" or "flat data")
// and for some reason I don't understand, multiple records can be returned, so I'm returning
// a slice of ODocument
//
// TODO: may also want to expose options: ignoreCache, loadTombstones bool
// TODO: need to properly handle fetchPlan
func FetchRecordByRID(dbc *DBClient, orid oschema.ORID, fetchPlan string) ([]*oschema.ODocument, error) {
	dbc.buf.Reset()

	err := writeCommandAndSessionId(dbc, REQUEST_RECORD_LOAD)
	if err != nil {
		return nil, oerror.NewTrace(err)
	}

	err = rw.WriteShort(dbc.buf, orid.ClusterID)
	if err != nil {
		return nil, oerror.NewTrace(err)
	}

	err = rw.WriteLong(dbc.buf, orid.ClusterPos)
	if err != nil {
		return nil, oerror.NewTrace(err)
	}

	err = rw.WriteString(dbc.buf, fetchPlan)
	if err != nil {
		return nil, oerror.NewTrace(err)
	}

	ignoreCache := true // hardcoding for now
	err = rw.WriteBool(dbc.buf, ignoreCache)
	if err != nil {
		return nil, oerror.NewTrace(err)
	}

	loadTombstones := false // hardcoding for now
	err = rw.WriteBool(dbc.buf, loadTombstones)
	if err != nil {
		return nil, oerror.NewTrace(err)
	}

	// send to the OrientDB server
	_, err = dbc.conx.Write(dbc.buf.Bytes())
	if err != nil {
		return nil, oerror.NewTrace(err)
	}

	/* ---[ Read Response ]--- */

	err = readStatusCodeAndSessionId(dbc)
	if err != nil {
		return nil, oerror.NewTrace(err)
	}

	// this query can return multiple records (though I don't understand why)
	// so must do this in a loop
	docs := make([]*oschema.ODocument, 0, 1)
	for {
		payloadStatus, err := rw.ReadByte(dbc.conx)
		if err != nil {
			return nil, oerror.NewTrace(err)
		}

		if payloadStatus == byte(0) {
			break
		}

		rectype, err := rw.ReadByte(dbc.conx)
		if err != nil {
			return nil, oerror.NewTrace(err)
		}

		recversion, err := rw.ReadInt(dbc.conx)
		if err != nil {
			return nil, oerror.NewTrace(err)
		}

		databytes, err := rw.ReadBytes(dbc.conx)
		if err != nil {
			return nil, oerror.NewTrace(err)
		}

		ogl.Debugf("rectype:%v, recversion:%v, len(databytes):%v\n", rectype, recversion, len(databytes))

		if rectype == 'd' {
			// we don't know the classname so set empty value
			doc := oschema.NewDocument("")
			doc.RID = orid
			doc.Version = recversion

			// the first byte specifies record serialization version
			// use it to look up serializer
			serde := dbc.RecordSerDes[int(databytes[0])]
			// then strip off the version byte and send the data to the serde
			err = serde.Deserialize(dbc, doc, obuf.NewReadBuffer(databytes[1:]))
			if err != nil {
				return nil, fmt.Errorf("ERROR in Deserialize for rid %v: %v\n", orid, err)
			}
			docs = append(docs, doc)

		} else {
			return nil,
				fmt.Errorf("Only `document` records are currently supported by the client. Record returned was type: %v", rectype)
		}
	}

	return docs, nil
}
Exemple #5
0
//
// 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
}
Exemple #6
0
//
// loadConfigRecord loads record #0:0 for the current database, caching
// some of the information returned into OStorageConfiguration
//
func loadConfigRecord(dbc *DBClient) (schemaRID string, err error) {
	// The config record comes back as type 'b' (raw bytes), which should
	// just be converted to a string then tokenized by the pipe char

	dbc.buf.Reset()
	var (
		clusterId  int16
		clusterPos int64
	)
	err = writeCommandAndSessionId(dbc, REQUEST_RECORD_LOAD)
	if err != nil {
		return schemaRID, err
	}

	clusterId = 0
	err = rw.WriteShort(dbc.buf, clusterId)
	if err != nil {
		return schemaRID, err
	}

	clusterPos = 0
	err = rw.WriteLong(dbc.buf, clusterPos)
	if err != nil {
		return schemaRID, err
	}

	fetchPlan := "*:-1 index:0"
	err = rw.WriteString(dbc.buf, fetchPlan)
	if err != nil {
		return schemaRID, err
	}

	ignoreCache := true
	err = rw.WriteBool(dbc.buf, ignoreCache)
	if err != nil {
		return schemaRID, err
	}

	loadTombstones := true // based on Java client code
	err = rw.WriteBool(dbc.buf, loadTombstones)
	if err != nil {
		return schemaRID, err
	}

	// send to the OrientDB server
	_, err = dbc.conx.Write(dbc.buf.Bytes())
	if err != nil {
		return schemaRID, err
	}

	/* ---[ Read Response ]--- */

	err = readStatusCodeAndSessionId(dbc)
	if err != nil {
		return schemaRID, err
	}

	payloadStatus, err := rw.ReadByte(dbc.conx)
	if err != nil {
		return schemaRID, err
	}

	if payloadStatus == byte(0) {
		return schemaRID, errors.New("Payload status for #0:0 load was 0. No config data returned.")
	}

	rectype, err := rw.ReadByte(dbc.conx)
	if err != nil {
		return schemaRID, err
	}

	// this is the record version - don't see a reason to check or cache it right now
	_, err = rw.ReadInt(dbc.conx)
	if err != nil {
		return schemaRID, err
	}

	databytes, err := rw.ReadBytes(dbc.conx)
	if err != nil {
		return schemaRID, err
	}

	if rectype != 'b' {
		if err != nil {
			return schemaRID, fmt.Errorf("Expected rectype %d, but was: %d", 'b', rectype)
		}
	}

	payloadStatus, err = rw.ReadByte(dbc.conx)
	if err != nil {
		return schemaRID, err
	}

	if payloadStatus != byte(0) {
		return schemaRID,
			errors.New("Second Payload status for #0:0 load was not 0. More than one record returned unexpectedly")
	}

	err = parseConfigRecord(dbc.currDB, string(databytes))
	if err != nil {
		return schemaRID, err
	}

	schemaRID = dbc.currDB.StorageCfg.schemaRID
	return schemaRID, err
}
//
// ConnectToServer logs into the OrientDB server with the appropriate
// admin privileges in order to execute server-level commands (as opposed
// to database-level commands). This must be called to establish a server
// session before any other server-level commands. The username and password
// required are for the server (admin) not any particular database.
//
func ConnectToServer(dbc *DBClient, adminUser, adminPassw string) error {
	buf := dbc.buf
	buf.Reset()

	// first byte specifies request type
	err := rw.WriteByte(buf, REQUEST_CONNECT)
	if err != nil {
		return err
	}

	// session-id - send a negative number to create a new server-side conx
	err = rw.WriteInt(buf, RequestNewSession)
	if err != nil {
		return err
	}

	err = rw.WriteStrings(buf, DriverName, DriverVersion)
	if err != nil {
		return err
	}

	err = rw.WriteShort(buf, dbc.binaryProtocolVersion)
	if err != nil {
		return 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 err
	}

	// serialization-impl
	err = rw.WriteString(buf, dbc.serializationType)
	if err != nil {
		return err
	}

	// token-session  // TODO: hardcoded as false for now -> change later based on ClientOptions settings
	err = rw.WriteBool(buf, false)
	if err != nil {
		return err
	}

	// admin username, password
	err = rw.WriteStrings(buf, adminUser, adminPassw)
	if err != nil {
		return err
	}

	// send to OrientDB server
	_, err = dbc.conx.Write(buf.Bytes())
	if err != nil {
		return err
	}

	/* ---[ Read Server Response ]--- */

	// first byte indicates success/error
	status, err := rw.ReadByte(dbc.conx)
	if err != nil {
		return err
	}

	// the first int returned is the session id sent - which was the `RequestNewSession` sentinel
	sessionValSent, err := rw.ReadInt(dbc.conx)
	if err != nil {
		return 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 err
		}
		return fmt.Errorf("Server Error(s): %v", exceptions)
	}

	// for the REQUEST_CONNECT case, another int is returned which is the new sessionId
	sessionId, err := rw.ReadInt(dbc.conx)
	if err != nil {
		return err
	}
	// TODO: this assumes you can only have one sessionId - but perhaps can have a server sessionid
	//       and one or more database sessions open at the same time ?????
	dbc.sessionId = sessionId

	tokenBytes, err := rw.ReadBytes(dbc.conx)
	if err != nil {
		return err
	}
	dbc.token = tokenBytes
	return nil
}
Exemple #8
0
//
// writeDataValue is part of the Serialize functionality
// TODO: change name to writeSingleValue ?
//
func (serde ORecordSerializerV0) writeDataValue(buf *obuf.WriteBuf, value interface{}, datatype oschema.ODataType) (err error) {
	switch datatype {
	case oschema.STRING:
		err = varint.WriteString(buf, value.(string))
		ogl.Debugf("DEBUG STR: -writeDataVal val: %v\n", value.(string)) // DEBUG

	case oschema.BOOLEAN:
		err = rw.WriteBool(buf, value.(bool))
		ogl.Debugf("DEBUG BOOL: -writeDataVal val: %v\n", value.(bool)) // DEBUG

	case oschema.INTEGER:
		var i32val int32
		i32val, err = toInt32(value)
		if err == nil {
			err = varint.EncodeAndWriteVarInt32(buf, i32val)         // TODO: are serialized integers ALWAYS varint encoded?
			ogl.Debugf("DEBUG INT: -writeDataVal val: %v\n", i32val) // DEBUG
		}

	case oschema.SHORT:
		// TODO: needs toInt16 conversion fn
		err = varint.EncodeAndWriteVarInt32(buf, int32(value.(int16)))
		ogl.Debugf("DEBUG SHORT: -writeDataVal val: %v\n", value.(int16)) // DEBUG

	case oschema.LONG:
		var i64val int64
		i64val, err = toInt64(value)
		if err == nil {
			err = varint.EncodeAndWriteVarInt64(buf, i64val)          // TODO: are serialized longs ALWAYS varint encoded?
			ogl.Debugf("DEBUG LONG: -writeDataVal val: %v\n", i64val) // DEBUG
		}

	case oschema.FLOAT:
		var f32 float32
		f32, err = toFloat32(value)
		if err == nil {
			err = rw.WriteFloat(buf, f32)
		}
		ogl.Debugf("DEBUG FLOAT: -writeDataVal val: %v\n", value) // DEBUG

	case oschema.DOUBLE:
		var f64 float64
		f64, err = toFloat64(value)
		if err == nil {
			err = rw.WriteDouble(buf, f64)
		}
		ogl.Debugf("DEBUG DOUBLE: -writeDataVal val: %v\n", value.(float64)) // DEBUG

	case oschema.DATETIME:
		err = writeDateTime(buf, value)
		ogl.Debugf("DEBUG DATETIME: -writeDataVal val: %v\n", value) // DEBUG

	case oschema.DATE:
		err = writeDate(buf, value)
		ogl.Debugf("DEBUG DATE: -writeDataVal val: %v\n", value) // DEBUG

	case oschema.BINARY:
		err = varint.WriteBytes(buf, value.([]byte))
		ogl.Debugf("DEBUG BINARY: -writeDataVal val: %v\n", value.([]byte)) // DEBUG

	case oschema.EMBEDDED:
		err = serde.serializeDocument(buf, value.(*oschema.ODocument))
		ogl.Debugf("DEBUG EMBEDDED: -writeDataVal val: %v\n", value) // DEBUG

	case oschema.EMBEDDEDLIST:
		err = serde.serializeEmbeddedCollection(buf, value.(oschema.OEmbeddedList))
		ogl.Debugf("DEBUG EMBD-LIST: -writeDataVal val: %v\n", value) // DEBUG

	case oschema.EMBEDDEDSET:
		err = serde.serializeEmbeddedCollection(buf, value.(oschema.OEmbeddedList))
		ogl.Debugf("DEBUG EMBD-SET: -writeDataVal val: %v\n", value) // DEBUG

	case oschema.EMBEDDEDMAP:
		err = serde.writeEmbeddedMap(buf, value.(oschema.OEmbeddedMap))
		ogl.Debugf("DEBUG EMBEDDEDMAP:  val %v\n", value.(oschema.OEmbeddedMap))

	case oschema.LINK:
		err = serde.writeLink(buf, value.(*oschema.OLink))
		ogl.Debugf("DEBUG LINK:  val %v\n", value) // DEBUG

	case oschema.LINKLIST:
		err = serde.writeLinkList(buf, value.([]*oschema.OLink))
		ogl.Debugf("DEBUG LINKLIST:  val %v\n", value) // DEBUG

	case oschema.LINKSET:
		err = serde.writeLinkList(buf, value.([]*oschema.OLink))
		ogl.Debugf("DEBUG LINKSET:  val %v\n", value) // DEBUG

	case oschema.LINKMAP:
		err = serde.writeLinkMap(buf, value.(map[string]*oschema.OLink))
		ogl.Debugf("DEBUG LINKMAP:  val %v\n", value) // DEBUG

	case oschema.BYTE:
		err = rw.WriteByte(buf, value.(byte))
		ogl.Debugf("DEBUG BYTE: -writeDataVal val: %v\n", value.(byte)) // DEBUG

	case oschema.DECIMAL:
		// TODO: impl me -> Java client uses BigDecimal for this
		panic("ORecordSerializerV0#writeDataValue DECIMAL NOT YET IMPLEMENTED")

	case oschema.CUSTOM:
		// TODO: impl me
		panic("ORecordSerializerV0#writeDataValue CUSTOM NOT YET IMPLEMENTED")
	case oschema.LINKBAG:
		panic("ORecordSerializerV0#writeDataValue LINKBAG NOT YET IMPLEMENTED")
	default:
		// ANY and TRANSIENT are do nothing ops
	}
	return err
}