/* * This Java file has been generated by smidump 0.4.5. It * is intended to be edited by the application programmer and * to be used within a Java AgentX sub-agent environment. * * $Id: SerialConfigEntryImpl.java 4432 2006-05-29 16:21:11Z strauss $ */ /** This class extends the Java AgentX (JAX) implementation of the table row serialConfigEntry defined in RMON2-MIB. */ import jax.AgentXOID; import jax.AgentXSetPhase; import jax.AgentXResponsePDU; import jax.AgentXEntry; public class SerialConfigEntryImpl extends SerialConfigEntry { // constructor public SerialConfigEntryImpl(int ifIndex) { super(ifIndex); } public int get_serialMode() { return serialMode; } public int set_serialMode(AgentXSetPhase phase, int value) { switch (phase.getPhase()) { case AgentXSetPhase.TEST_SET: break; case AgentXSetPhase.COMMIT: undo_serialMode = serialMode; serialMode = value; break; case AgentXSetPhase.UNDO: serialMode = undo_serialMode; break; case AgentXSetPhase.CLEANUP: break; default: return AgentXResponsePDU.PROCESSING_ERROR; } return AgentXResponsePDU.NO_ERROR; } public int get_serialProtocol() { return serialProtocol; } public int set_serialProtocol(AgentXSetPhase phase, int value) { switch (phase.getPhase()) { case AgentXSetPhase.TEST_SET: break; case AgentXSetPhase.COMMIT: undo_serialProtocol = serialProtocol; serialProtocol = value; break; case AgentXSetPhase.UNDO: serialProtocol = undo_serialProtocol; break; case AgentXSetPhase.CLEANUP: break; default: return AgentXResponsePDU.PROCESSING_ERROR; } return AgentXResponsePDU.NO_ERROR; } public int get_serialTimeout() { return serialTimeout; } public int set_serialTimeout(AgentXSetPhase phase, int value) { switch (phase.getPhase()) { case AgentXSetPhase.TEST_SET: break; case AgentXSetPhase.COMMIT: undo_serialTimeout = serialTimeout; serialTimeout = value; break; case AgentXSetPhase.UNDO: serialTimeout = undo_serialTimeout; break; case AgentXSetPhase.CLEANUP: break; default: return AgentXResponsePDU.PROCESSING_ERROR; } return AgentXResponsePDU.NO_ERROR; } public byte[] get_serialModemInitString() { return serialModemInitString; } public int set_serialModemInitString(AgentXSetPhase phase, byte[] value) { switch (phase.getPhase()) { case AgentXSetPhase.TEST_SET: break; case AgentXSetPhase.COMMIT: undo_serialModemInitString = serialModemInitString; serialModemInitString = new byte[value.length]; for(int i = 0; i < value.length; i++) serialModemInitString[i] = value[i]; break; case AgentXSetPhase.UNDO: serialModemInitString = undo_serialModemInitString; break; case AgentXSetPhase.CLEANUP: undo_serialModemInitString = null; break; default: return AgentXResponsePDU.PROCESSING_ERROR; } return AgentXResponsePDU.NO_ERROR; } public byte[] get_serialModemHangUpString() { return serialModemHangUpString; } public int set_serialModemHangUpString(AgentXSetPhase phase, byte[] value) { switch (phase.getPhase()) { case AgentXSetPhase.TEST_SET: break; case AgentXSetPhase.COMMIT: undo_serialModemHangUpString = serialModemHangUpString; serialModemHangUpString = new byte[value.length]; for(int i = 0; i < value.length; i++) serialModemHangUpString[i] = value[i]; break; case AgentXSetPhase.UNDO: serialModemHangUpString = undo_serialModemHangUpString; break; case AgentXSetPhase.CLEANUP: undo_serialModemHangUpString = null; break; default: return AgentXResponsePDU.PROCESSING_ERROR; } return AgentXResponsePDU.NO_ERROR; } public byte[] get_serialModemConnectResp() { return serialModemConnectResp; } public int set_serialModemConnectResp(AgentXSetPhase phase, byte[] value) { switch (phase.getPhase()) { case AgentXSetPhase.TEST_SET: break; case AgentXSetPhase.COMMIT: undo_serialModemConnectResp = serialModemConnectResp; serialModemConnectResp = new byte[value.length]; for(int i = 0; i < value.length; i++) serialModemConnectResp[i] = value[i]; break; case AgentXSetPhase.UNDO: serialModemConnectResp = undo_serialModemConnectResp; break; case AgentXSetPhase.CLEANUP: undo_serialModemConnectResp = null; break; default: return AgentXResponsePDU.PROCESSING_ERROR; } return AgentXResponsePDU.NO_ERROR; } public byte[] get_serialModemNoConnectResp() { return serialModemNoConnectResp; } public int set_serialModemNoConnectResp(AgentXSetPhase phase, byte[] value) { switch (phase.getPhase()) { case AgentXSetPhase.TEST_SET: break; case AgentXSetPhase.COMMIT: undo_serialModemNoConnectResp = serialModemNoConnectResp; serialModemNoConnectResp = new byte[value.length]; for(int i = 0; i < value.length; i++) serialModemNoConnectResp[i] = value[i]; break; case AgentXSetPhase.UNDO: serialModemNoConnectResp = undo_serialModemNoConnectResp; break; case AgentXSetPhase.CLEANUP: undo_serialModemNoConnectResp = null; break; default: return AgentXResponsePDU.PROCESSING_ERROR; } return AgentXResponsePDU.NO_ERROR; } public int get_serialDialoutTimeout() { return serialDialoutTimeout; } public int set_serialDialoutTimeout(AgentXSetPhase phase, int value) { switch (phase.getPhase()) { case AgentXSetPhase.TEST_SET: break; case AgentXSetPhase.COMMIT: undo_serialDialoutTimeout = serialDialoutTimeout; serialDialoutTimeout = value; break; case AgentXSetPhase.UNDO: serialDialoutTimeout = undo_serialDialoutTimeout; break; case AgentXSetPhase.CLEANUP: break; default: return AgentXResponsePDU.PROCESSING_ERROR; } return AgentXResponsePDU.NO_ERROR; } public int get_serialStatus() { return serialStatus; } public int set_serialStatus(AgentXSetPhase phase, int value) { switch (phase.getPhase()) { case AgentXSetPhase.TEST_SET: break; case AgentXSetPhase.COMMIT: undo_serialStatus = serialStatus; serialStatus = value; break; case AgentXSetPhase.UNDO: serialStatus = undo_serialStatus; break; case AgentXSetPhase.CLEANUP: break; default: return AgentXResponsePDU.PROCESSING_ERROR; } return AgentXResponsePDU.NO_ERROR; } }