// -*- c-basic-offset: 4; tab-width: 8; indent-tabs-mode: t -*- // Copyright (c) 2001-2007 International Computer Science Institute // // Permission is hereby granted, free of charge, to any person obtaining a // copy of this software and associated documentation files (the "Software") // to deal in the Software without restriction, subject to the conditions // listed in the XORP LICENSE file. These conditions include: you must // preserve this copyright notice, and you cannot mention the copyright // holders in advertising related to the Software without their permission. // The Software is provided WITHOUT ANY WARRANTY, EXPRESS OR IMPLIED. This // notice is a summary of the XORP LICENSE file; the license in that file is // legally binding. // $XORP: xorp/fea/mfea_node.hh,v 1.37 2007/02/16 22:45:46 pavlin Exp $ #ifndef __FEA_MFEA_NODE_HH__ #define __FEA_MFEA_NODE_HH__ // // MFEA (Multicast Forwarding Engine Abstraction) node definition. // #include <vector> #include "libxorp/ipvx.hh" #include "libxorp/config_param.hh" #include "libproto/proto_node.hh" #include "libproto/proto_register.hh" #include "libfeaclient/ifmgr_xrl_mirror.hh" #include "mrt/mifset.hh" #include "mfea_dataflow.hh" #include "mfea_mrouter.hh" // // Constants definitions // // // Structures/classes, typedefs and macros // class EventLoop; class MfeaVif; class ProtoComm; class SgCount; class VifCount; /** * @short The MFEA node class. * * There should be one node per MFEA instance. There should be * one instance per address family. */ class MfeaNode : public ProtoNode<MfeaVif>, public IfMgrHintObserver, public ServiceChangeObserverBase { public: /** * Constructor for a given address family, module ID, and event loop. * * @param family the address family (AF_INET or AF_INET6 for * IPv4 and IPv6 respectively). * @param module_id the module ID (@ref xorp_module_id). Should be * equal to XORP_MODULE_MFEA. * @param eventloop the event loop to use. */ MfeaNode(int family, xorp_module_id module_id, EventLoop& eventloop); /** * Destructor */ virtual ~MfeaNode(); /** * Start the node operation. * * After the startup operations are completed, * @ref MfeaNode::final_start() is called internally * to complete the job. * * @return XORP_OK on success, otherwise XORP_ERROR. */ int start(); /** * Stop the node operation. * * After the shutdown operations are completed, * @ref MfeaNode::final_stop() is called internally * to complete the job. * * @return XORP_OK on success, otherwise XORP_ERROR. */ int stop(); /** * Completely start the node operation. * * This method should be called internally after @ref MfeaNode::start() * to complete the job. * * @return XORP_OK on success, otherwise XORP_ERROR. */ int final_start(); /** * Completely stop the node operation. * * This method should be called internally after @ref MfeaNode::stop() * to complete the job. * * @return XORP_OK on success, otherwise XORP_ERROR. */ int final_stop(); /** * Enable node operation. * * If an unit is not enabled, it cannot be start, or pending-start. */ void enable(); /** * Disable node operation. * * If an unit is disabled, it cannot be start or pending-start. * If the unit was runnning, it will be stop first. */ void disable(); /** * Test if the underlying system supports IPv4 multicast routing. * * @return true if the underlying system supports IPv4 multicast routing, * otherwise false. */ bool have_multicast_routing4() const { return (_mfea_mrouter.have_multicast_routing4()); } /** * Test if the underlying system supports IPv6 multicast routing. * * @return true if the underlying system supports IPv6 multicast routing, * otherwise false. */ bool have_multicast_routing6() const { return (_mfea_mrouter.have_multicast_routing6()); } /** * Install a new MFEA vif. * * @param vif vif information about the new MfeaVif to install. * @param error_msg the error message (if error). * @return XORP_OK on success, otherwise XORP_ERROR. */ int add_vif(const Vif& vif, string& error_msg); /** * Delete an existing MFEA vif. * * @param vif_name the name of the vif to delete. * @param error_msg the error message (if error). * @return XORP_OK on success, otherwise XORP_ERROR. */ int delete_vif(const string& vif_name, string& error_msg); /** * Add a configured vif. * * @param vif the vif with the information to add. * @param error_msg the error message (if error). * @return XORP_OK on success, otherwise XORP_ERROR. */ int add_config_vif(const Vif& vif, string& error_msg); /** * Add a configured vif. * * @param vif_name the name of the vif to add. * @param vif_index the vif index of the vif to add. * @param error_msg the error message (if error). * @return XORP_OK on success, otherwise XORP_ERROR. */ int add_config_vif(const string& vif_name, uint32_t vif_index, string& error_msg); /** * Delete a configured vif. * * @param vif_name the name of the vif to delete. * @param error_msg the error message (if error). * @return XORP_OK on success, otherwise XORP_ERROR. */ int delete_config_vif(const string& vif_name, string& error_msg); /** * Add an address to a configured vif. * * @param vif_name the name of the vif. * @param addr the address to add. * @param subnet the subnet address to add. * @param broadcast the broadcast address to add. * @param peer the peer address to add. * @param error_msg the error message (if error). * @return XORP_OK on success, otherwise XORP_ERROR. */ int add_config_vif_addr(const string& vif_name, const IPvX& addr, const IPvXNet& subnet, const IPvX& broadcast, const IPvX& peer, string& error_msg); /** * Delete an address from a configured vif. * * @param vif_name the name of the vif. * @param addr the address to delete. * @param error_msg the error message (if error). * @return XORP_OK on success, otherwise XORP_ERROR. */ int delete_config_vif_addr(const string& vif_name, const IPvX& addr, string& error_msg); /** * Set the pif_index of a configured vif. * * @param vif_name the name of the vif. * @param pif_index the physical interface index. * @param error_msg the error message (if error). * @return XORP_OK on success, otherwise XORP_ERROR. */ int set_config_pif_index(const string& vif_name, uint32_t pif_index, string& error_msg); /** * Set the vif flags of a configured vif. * * @param vif_name the name of the vif. * @param is_pim_register true if the vif is a PIM Register interface. * @param is_p2p true if the vif is point-to-point interface. * @param is_loopback true if the vif is a loopback interface. * @param is_multicast true if the vif is multicast capable. * @param is_broadcast true if the vif is broadcast capable. * @param is_up true if the underlying vif is UP. * @param mtu the MTU of the vif. * @param error_msg the error message (if error). * @return XORP_OK on success, otherwise XORP_ERROR. */ int set_config_vif_flags(const string& vif_name, bool is_pim_register, bool is_p2p, bool is_loopback, bool is_multicast, bool is_broadcast, bool is_up, uint32_t mtu, string& error_msg); /** * Complete the set of vif configuration changes. * * @param error_msg the error message (if error). * @return XORP_OK on success, otherwise XORP_ERROR. */ int set_config_all_vifs_done(string& error_msg); /** * Send a message to a client to add a configured vif. * * @param dst_module_instance_name the name of the protocol * instance-destination of the message. * @param dst_module_id the module ID of the protocol-destination * of the message. * @param vif_name the name of the vif to add. * @param vif_index the vif index of the vif to add. * @return XORP_OK on success, otherwise XORP_ERROR. */ virtual int send_add_config_vif(const string& dst_module_instance_name, xorp_module_id dst_module_id, const string& vif_name, uint32_t vif_index) = 0; /** * Send a message to a client to delete a configured vif. * * @param dst_module_instance_name the name of the protocol * instance-destination of the message. * @param dst_module_id the module ID of the protocol-destination * of the message. * @param vif_name the name of the vif to delete. * @return XORP_OK on success, otherwise XORP_ERROR. */ virtual int send_delete_config_vif(const string& dst_module_instance_name, xorp_module_id dst_module_id, const string& vif_name) = 0; /** * Send a message to a client to add an address to a configured vif. * * @param dst_module_instance_name the name of the protocol * instance-destination of the message. * @param dst_module_id the module ID of the protocol-destination * of the message. * @param vif_name the name of the vif. * @param addr the address to add. * @param subnet the subnet address to add. * @param broadcast the broadcast address to add. * @param peer the peer address to add. * @return XORP_OK on success, otherwise XORP_ERROR. */ virtual int send_add_config_vif_addr(const string& dst_module_instance_name, xorp_module_id dst_module_id, const string& vif_name, const IPvX& addr, const IPvXNet& subnet, const IPvX& broadcast, const IPvX& peer) = 0; /** * Send a message to a client to delete an address from a configured vif. * * @param dst_module_instance_name the name of the protocol * instance-destination of the message. * @param dst_module_id the module ID of the protocol-destination * of the message. * @param vif_name the name of the vif. * @param addr the address to delete. * @return XORP_OK on success, otherwise XORP_ERROR. */ virtual int send_delete_config_vif_addr(const string& dst_module_instance_name, xorp_module_id dst_module_id, const string& vif_name, const IPvX& addr) = 0; /** * Send a message to a client to set the vif flags of a configured vif. * * @param dst_module_instance_name the name of the protocol * instance-destination of the message. * @param dst_module_id the module ID of the protocol-destination * of the message. * @param vif_name the name of the vif. * @param is_pim_register true if the vif is a PIM Register interface. * @param is_p2p true if the vif is point-to-point interface. * @param is_loopback true if the vif is a loopback interface. * @param is_multicast true if the vif is multicast capable. * @param is_broadcast true if the vif is broadcast capable. * @param is_up true if the underlying vif is UP. * @param mtu the MTU of the vif. * @return XORP_OK on success, otherwise XORP_ERROR. */ virtual int send_set_config_vif_flags(const string& dst_module_instance_name, xorp_module_id dst_module_id, const string& vif_name, bool is_pim_register, bool is_p2p, bool is_loopback, bool is_multicast, bool is_broadcast, bool is_up, uint32_t mtu) = 0; /** * Send a message to a client to complete the set of vif configuration * changes. * * @param dst_module_instance_name the name of the protocol * instance-destination of the message. * @param dst_module_id the module ID of the protocol-destination * of the message. * @return XORP_OK on success, otherwise XORP_ERROR. */ virtual int send_set_config_all_vifs_done(const string& dst_module_instance_name, xorp_module_id dst_module_id) = 0; /** * Enable an existing MFEA vif. * * @param vif_name the name of the vif to enable. * @param error_msg the error message (if error). * @return XORP_OK on success, otherwise XORP_ERROR. */ int enable_vif(const string& vif_name, string& error_msg); /** * Disable an existing MFEA vif. * * @param vif_name the name of the vif to disable. * @param error_msg the error message (if error). * @return XORP_OK on success, otherwise XORP_ERROR. */ int disable_vif(const string& vif_name, string& error_msg); /** * Start an existing MFEA vif. * * @param vif_name the name of the vif to start. * @param error_msg the error message (if error). * @return XORP_OK on success, otherwise XORP_ERROR. */ int start_vif(const string& vif_name, string& error_msg); /** * Stop an existing MFEA vif. * * @param vif_name the name of the vif to start. * @param error_msg the error message (if error). * @return XORP_OK on success, otherwise XORP_ERROR. */ int stop_vif(const string& vif_name, string& error_msg); /** * Start MFEA on all enabled interfaces. * * @return XORP_OK on success, otherwise XORP_ERROR. */ int start_all_vifs(); /** * Stop MFEA on all interfaces it was running on. * * @return XORP_OK on success, otherwise XORP_ERROR. */ int stop_all_vifs(); /** * Enable MFEA on all interfaces. * * @return XORP_OK on success, otherwise XORP_ERROR. */ int enable_all_vifs(); /** * Disable MFEA on all interfaces. * * All running interfaces are stopped first. * * @return XORP_OK on success, otherwise XORP_ERROR. */ int disable_all_vifs(); /** * Delete all MFEA vifs. */ void delete_all_vifs(); /** * A method called when a vif has completed its shutdown. * * @param vif_name the name of the vif that has completed its shutdown. */ void vif_shutdown_completed(const string& vif_name); /** * Start operation for a given protocol. * * @param module_id the module ID (@ref xorp_module_id) of the protocol * to start. * @return XORP_OK on success, otherwise XORP_ERROR. */ int start_protocol(xorp_module_id module_id); /** * Stop operation for a given protocol. * * @param module_id the module ID (@ref xorp_module_id) of the protocol * to stop. * @return XORP_OK on success, otherwise XORP_ERROR. */ int stop_protocol(xorp_module_id module_id); /** * A method used by a protocol instance to register with this MfeaNode. * * @param module_instance_name the module instance name of the protocol * to add. * @param module_id the module ID (@ref xorp_module_id) of the protocol * to add. * @return XORP_OK on success, otherwise XORP_ERROR. */ int add_protocol(const string& module_instance_name, xorp_module_id module_id); /** * A method used by a protocol instance to deregister with this MfeaNode. * * @param module_instance_name the module instance name of the protocol * to delete. * @param module_id the module ID (@ref xorp_module_id) of the protocol * to delete. * @return XORP_OK on success, otherwise XORP_ERROR. */ int delete_protocol(const string& module_instance_name, xorp_module_id module_id); /** * Start a protocol on an interface. * * @param module_instance_name the module instance name of the protocol * to start on the interface. * @param module_id the module ID (@ref xorp_module_id) of the protocol * to start on the interface. * @param vif_index the vif index of the interface to start the * protocol on. * @return XORP_OK on success, otherwise XORP_ERROR. */ int start_protocol_vif(const string& module_instance_name, xorp_module_id module_id, uint32_t vif_index); /** * Stop a protocol on an interface. * * @param module_instance_name the module instance name of the protocol * to stop on the interface. * @param module_id the module ID (@ref xorp_module_id) of the protocol * to stop on the interface. * @param vif_index the vif index of the interface to stop the * protocol on. * @return XORP_OK on success, otherwise XORP_ERROR. */ int stop_protocol_vif(const string& module_instance_name, xorp_module_id module_id, uint32_t vif_index); /** * Add a protocol to receive kernel signal messages. * * Add a protocol to the set of protocols that are interested in * receiving kernel signal messages. * * @param module_instance_name the module instance name of the protocol * to add. * @param module_id the module ID (@ref xorp_module_id) of the protocol * to add. * @return XORP_OK on success, otherwise XORP_ERROR. */ int add_allow_kernel_signal_messages(const string& module_instance_name, xorp_module_id module_id); /** * Delete a protocol from receiving kernel signal messages. * * Delete a protocol from the set of protocols that are interested in * receiving kernel signal messages. * * @param module_instance_name the module instance name of the protocol * to delete. * @param module_id the module ID (@ref xorp_module_id) of the protocol * to delete. * @return XORP_OK on success, otherwise XORP_ERROR. */ int delete_allow_kernel_signal_messages(const string& module_instance_name, xorp_module_id module_id); /** * Receive a protocol message from an user-level protocol. * * @param src_module_instance_name the module instance name of the * module-origin of the message. * * @param src_module_id the module ID (@ref xorp_module_id) of the * module-origin of the message. * * @param vif_index the vif index of the interface used to receive this * message. * * @param src the source address of the message. * * @param dst the destination address of the message. * * @param ip_ttl the IP TTL of the message. If it has a negative value, * the TTL will be set by the lower layers (including the MFEA). * * @param ip_tos the IP TOS of the message. If it has a negative value, * the TOS will be set by the lower layers (including the MFEA). * * @param is_router_alert if true, set the Router Alert IP option for * the IP packet of the outgoung message. * * @param rcvbuf the data buffer with the received message. * * @param rcvlen the data length in @ref rcvbuf. * * @param error_msg the error message (if error). * * @return XORP_OK on success, otherwise XORP_ERROR. */ int proto_recv(const string& src_module_instance_name, xorp_module_id src_module_id, uint32_t vif_index, const IPvX& src, const IPvX& dst, int ip_ttl, int ip_tos, bool is_router_alert, const uint8_t *rcvbuf, size_t rcvlen, string& error_msg); /** * Process an incoming message from the kernel. * * This method sends the protocol message to an user-level protocol module. * Note: it uses the pure virtual ProtoNode::proto_send() method * that is implemented somewhere else (at a class that inherits this one). * * @param dst_module_id the module ID (@ref xorp_module_id) of the * module-recepient of the message. * * @param vif_index the vif index of the interface used to receive this * message. * * @param src the source address of the message. * * @param dst the destination address of the message. * * @param ip_ttl the IP TTL (Time To Live) of the message. If it has * a negative value, it should be ignored. * * @param ip_tos the IP TOS (Type of Service) of the message. If it has * a negative value, it should be ignored. * * @param is_router_alert if true, the Router Alert IP option for the IP * packet of the incoming message was set. * * @param rcvbuf the data buffer with the received message. * * @param rcvlen the data length in @ref rcvbuf. * * @return XORP_OK on success, otherwise XORP_ERROR. */ int proto_comm_recv(xorp_module_id dst_module_id, uint32_t vif_index, const IPvX& src, const IPvX& dst, int ip_ttl, int ip_tos, bool is_router_alert, const uint8_t *rcvbuf, size_t rcvlen); /** * Process NOCACHE, WRONGVIF/WRONGMIF, WHOLEPKT signals from the * kernel. * * The signal is sent to all user-level protocols that expect it. * * @param src_module_instance_name unused. * @param src_module_id the @ref xorp_module_id module ID of the * associated @ref ProtoComm entry. Note: in the future it may become * irrelevant. * @param message_type the message type of the kernel signal (for IPv4 * and IPv6 respectively): * <pre> #define IGMPMSG_NOCACHE 1 #define IGMPMSG_WRONGVIF 2 #define IGMPMSG_WHOLEPKT 3 #define MRT6MSG_NOCACHE 1 #define MRT6MSG_WRONGMIF 2 #define MRT6MSG_WHOLEPKT 3 </pre> * * @param vif_index the vif index of the related interface * (message-specific). * * @param src the source address in the message. * @param dst the destination address in the message. * @param rcvbuf the data buffer with the additional information in * the message. * @param rcvlen the data length in @ref rcvbuf. * * @return XORP_OK on success, otherwise XORP_ERROR. */ int signal_message_recv(const string& src_module_instance_name, xorp_module_id src_module_id, int message_type, uint32_t vif_index, const IPvX& src, const IPvX& dst, const uint8_t *rcvbuf, size_t rcvlen); /** * Process a dataflow upcall from the kernel or from the MFEA internal * mechanism. * * The MFEA internal bandwidth-estimation mechanism is based on * periodic reading of the kernel multicast forwarding statistics. * The signal is sent to all user-level protocols that expect it. * * Note: either @ref is_threshold_in_packets or @ref is_threshold_in_bytes * (or both) must be true. * Note: either @ref is_geq_upcall or @ref is_leq_upcall * (but not both) must be true. * * @param source the source address. * * @param group the group address. * * @param threshold_interval the dataflow threshold interval. * * @param measured_interval the dataflow measured interval. * * @param threshold_packets the threshold (in number of packets) * to compare against. * * @param threshold_bytes the threshold (in number of bytes) * to compare against. * * @param measured_packets the number of packets measured within * the @ref measured_interval. * * @param measured_bytes the number of bytes measured within * the @ref measured_interval. * * @param is_threshold_in_packets if true, @ref threshold_packets is valid. * * @param is_threshold_in_bytes if true, @ref threshold_bytes is valid. * * @param is_geq_upcall if true, the operation for comparison is ">=". * * @param is_leq_upcall if true, the operation for comparison is "<=". * * @return XORP_OK on success, otherwise XORP_ERROR. */ int signal_dataflow_message_recv(const IPvX& source, const IPvX& group, const TimeVal& threshold_interval, const TimeVal& measured_interval, uint32_t threshold_packets, uint32_t threshold_bytes, uint32_t measured_packets, uint32_t measured_bytes, bool is_threshold_in_packets, bool is_threshold_in_bytes, bool is_geq_upcall, bool is_leq_upcall); /** * Send a signal that a dataflow-related pre-condition is true. * * This is a pure virtual function, and it must be implemented * by the communication-wrapper class that inherits this base class. * * Note: either @ref is_threshold_in_packets or @ref is_threshold_in_bytes * (or both) must be true. * Note: either @ref is_geq_upcall or @ref is_leq_upcall * (but not both) must be true. * * @param dst_module_instance_name the module instance name of the * module-recepient of the message. * * @param dst_module_id the module ID (@ref xorp_module_id) of the * module-recepient of the message. * * @param source_addr the source address of the dataflow. * * @param group_addr the group address of the dataflow. * * @param threshold_interval_sec the number of seconds in the * interval requested for measurement. * * @param threshold_interval_usec the number of microseconds in the * interval requested for measurement. * * @param measured_interval_sec the number of seconds in the * last measured interval that has triggered the signal. * * @param measured_interval_usec the number of microseconds in the * last measured interval that has triggered the signal. * * @param threshold_packets the threshold value to trigger a signal * (in number of packets). * * @param threshold_bytes the threshold value to trigger a signal * (in bytes). * * @param measured_packets the number of packets measured within * the @ref measured_interval. * * @param measured_bytes the number of bytes measured within * the @ref measured_interval. * * @param is_threshold_in_packets if true, @ref threshold_packets is valid. * * @param is_threshold_in_bytes if true, @ref threshold_bytes is valid. * * @param is_geq_upcall if true, the operation for comparison is ">=". * * @param is_leq_upcall if true, the operation for comparison is "<=". * * @return XORP_OK on success, otherwise XORP_ERROR. */ virtual int dataflow_signal_send(const string& dst_module_instance_name, xorp_module_id dst_module_id, const IPvX& source_addr, const IPvX& group_addr, uint32_t threshold_interval_sec, uint32_t threshold_interval_usec, uint32_t measured_interval_sec, uint32_t measured_interval_usec, uint32_t threshold_packets, uint32_t threshold_bytes, uint32_t measured_packets, uint32_t measured_bytes, bool is_threshold_in_packets, bool is_threshold_in_bytes, bool is_geq_upcall, bool is_leq_upcall) = 0; /** * Join a multicast group. * * @param module_instance_name the module instance name of the protocol * to join the multicast group. * * @param module_id the module ID (@ref xorp_module_id) of the protocol * to join the multicast group. * * @param vif_index the vif index of the interface to join. * * @param group the multicast group to join. * * @return XORP_OK on success, otherwise XORP_ERROR. */ int join_multicast_group(const string& module_instance_name, xorp_module_id module_id, uint32_t vif_index, const IPvX& group); /** * Leave a multicast group. * * @param module_instance_name the module instance name of the protocol * to leave the multicast group. * * @param module_id the module ID (@ref xorp_module_id) of the protocol * to leave the multicast group. * * @param vif_index the vif index of the interface to leave. * * @param group the multicast group to leave. * * @return XORP_OK on success, otherwise XORP_ERROR. */ int leave_multicast_group(const string& module_instance_name, xorp_module_id module_id, uint32_t vif_index, const IPvX& group); /** * Add Multicast Forwarding Cache (MFC) to the kernel. * * @param module_instance_name the module instance name of the protocol * that adds the MFC. * * @param source the source address. * * @param group the group address. * * @param iif_vif_index the vif index of the incoming interface. * * @param oiflist the bitset with the outgoing interfaces. * * @param oiflist_disable_wrongvif the bitset with the outgoing interfaces * to disable the WRONGVIF signal. * * @param max_vifs_oiflist the number of vifs covered by @ref oiflist * or @ref oiflist_disable_wrongvif. * * @param rp_addr the RP address. * * @return XORP_OK on success, otherwise XORP_ERROR. */ int add_mfc(const string& module_instance_name, const IPvX& source, const IPvX& group, uint32_t iif_vif_index, const Mifset& oiflist, const Mifset& oiflist_disable_wrongvif, uint32_t max_vifs_oiflist, const IPvX& rp_addr); /** * Delete Multicast Forwarding Cache (MFC) from the kernel. * * Note: all corresponding dataflow entries are also removed. * * @param module_instance_name the module instance name of the protocol * that deletes the MFC. * * @param source the source address. * * @param group the group address. * * @return XORP_OK on success, otherwise XORP_ERROR. */ int delete_mfc(const string& module_instance_name, const IPvX& source, const IPvX& group); /** * Add a dataflow monitor entry. * * Note: either @ref is_threshold_in_packets or @ref is_threshold_in_bytes * (or both) must be true. * Note: either @ref is_geq_upcall or @ref is_leq_upcall * (but not both) must be true. * * @param module_instance_name the module instance name of the protocol * that adds the dataflow monitor entry. * * @param source the source address. * * @param group the group address. * * @param threshold_interval the dataflow threshold interval. * * @param threshold_packets the threshold (in number of packets) to * compare against. * * @param threshold_bytes the threshold (in number of bytes) to * compare against. * * @param is_threshold_in_packets if true, @ref threshold_packets is valid. * * @param is_threshold_in_bytes if true, @ref threshold_bytes is valid. * * @param is_geq_upcall if true, the operation for comparison is ">=". * * @param is_leq_upcall if true, the operation for comparison is "<=". * * @param error_msg the error message (if error). * * @return XORP_OK on success, otherwise XORP_ERROR. */ int add_dataflow_monitor(const string& module_instance_name, const IPvX& source, const IPvX& group, const TimeVal& threshold_interval, uint32_t threshold_packets, uint32_t threshold_bytes, bool is_threshold_in_packets, bool is_threshold_in_bytes, bool is_geq_upcall, bool is_leq_upcall, string& error_msg); /** * Delete a dataflow monitor entry. * * Note: either @ref is_threshold_in_packets or @ref is_threshold_in_bytes * (or both) must be true. * Note: either @ref is_geq_upcall or @ref is_leq_upcall * (but not both) must be true. * * @param module_instance_name the module instance name of the protocol * that deletes the dataflow monitor entry. * * @param source the source address. * * @param group the group address. * * @param threshold_interval the dataflow threshold interval. * * @param threshold_packets the threshold (in number of packets) to * compare against. * * @param threshold_bytes the threshold (in number of bytes) to * compare against. * * @param is_threshold_in_packets if true, @ref threshold_packets is valid. * * @param is_threshold_in_bytes if true, @ref threshold_bytes is valid. * * @param is_geq_upcall if true, the operation for comparison is ">=". * * @param is_leq_upcall if true, the operation for comparison is "<=". * * @param error_msg the error message (if error). * * @return XORP_OK on success, otherwise XORP_ERROR. */ int delete_dataflow_monitor(const string& module_instance_name, const IPvX& source, const IPvX& group, const TimeVal& threshold_interval, uint32_t threshold_packets, uint32_t threshold_bytes, bool is_threshold_in_packets, bool is_threshold_in_bytes, bool is_geq_upcall, bool is_leq_upcall, string& error_msg); /** * Delete all dataflow monitor entries for a given source and group * address. * * @param module_instance_name the module instance name of the protocol * that deletes the dataflow monitor entry. * * @param source the source address. * * @param group the group address. * * @param error_msg the error message (if error). * * @return XORP_OK on success, otherwise XORP_ERROR. */ int delete_all_dataflow_monitor(const string& module_instance_name, const IPvX& source, const IPvX& group, string& error_msg); /** * Add a multicast vif to the kernel. * * @param vif_index the vif index of the interface to add. * @return XORP_OK on success, otherwise XORP_ERROR. */ int add_multicast_vif(uint32_t vif_index); /** * Delete a multicast vif from the kernel. * * @param vif_index the vif index of the interface to delete. * @return XORP_OK on success, otherwise XORP_ERROR. */ int delete_multicast_vif(uint32_t vif_index); /** * Get MFC multicast forwarding statistics from the kernel. * * Get the number of packets and bytes forwarded by a particular * Multicast Forwarding Cache (MFC) entry in the kernel, and the number * of packets arrived on wrong interface for that entry. * * @param source the MFC source address. * @param group the MFC group address. * @param sg_count a reference to a @ref SgCount class to place * the result: the number of packets and bytes forwarded by the particular * MFC entry, and the number of packets arrived on a wrong interface. * @return XORP_OK on success, otherwise XORP_ERROR. */ int get_sg_count(const IPvX& source, const IPvX& group, SgCount& sg_count); /** * Get interface multicast forwarding statistics from the kernel. * * Get the number of packets and bytes received on, or forwarded on * a particular multicast interface. * * @param vif_index the vif index of the virtual multicast interface whose * statistics we need. * @param vif_count a reference to a @ref VifCount class to store * the result. * @return XORP_OK on success, otherwise XORP_ERROR. */ int get_vif_count(uint32_t vif_index, VifCount& vif_count); /** * Get a reference to the mrouter (@ref MfeaMrouter). * * @return a reference to the mrouter (@ref MfeaMrouter). */ MfeaMrouter& mfea_mrouter() { return (_mfea_mrouter); } /** * Get a reference to the dataflow table (@ref MfeaDft). * * @return a reference to the dataflow table (@ref MfeaDft). */ MfeaDft& mfea_dft() { return (_mfea_dft); } /** * Get a reference to the vector-array of installed @ref ProtoComm entries. * * @return a reference to the vector-array of installed @ref ProtoComm * entries. */ vector<ProtoComm *>& proto_comms() { return (_proto_comms); } /** * Find an @ref ProtoComm entry for a given module ID * (@ref xorp_module_id). * * @param module_id the module ID (@ref xorp_module_id) to search for. * @return the corresponding @ref ProtoComm entry if found, otherwise NULL. */ ProtoComm *proto_comm_find_by_module_id(xorp_module_id module_id) const; /** * Find an @ref ProtoComm entry for a given IP protocol number. * * @param ip_protocol the IP protocol number ot search for. * @return the corresponding @ref ProtoComm entry if found, otherwise NULL. */ ProtoComm *proto_comm_find_by_ip_protocol(int ip_protocol) const; /** * Test if trace log is enabled. * * This method is used to test whether to output trace log debug messges. * * @return true if trace log is enabled, otherwise false. */ bool is_log_trace() const { return (_is_log_trace); } /** * Enable/disable trace log. * * This method is used to enable/disable trace log debug messages output. * * @param is_enabled if true, trace log is enabled, otherwise is disabled. */ void set_log_trace(bool is_enabled) { _is_log_trace = is_enabled; } protected: // // IfMgrHintObserver methods // void tree_complete(); void updates_made(); private: /** * A method invoked when the status of a service changes. * * @param service the service whose status has changed. * @param old_status the old status. * @param new_status the new status. */ void status_change(ServiceBase* service, ServiceStatus old_status, ServiceStatus new_status); /** * Get a reference to the service base of the interface manager. * * This is a pure virtual function, and it must be implemented * by the communication-wrapper class that inherits this base class. * * @return a reference to the service base of the interface manager. */ virtual const ServiceBase* ifmgr_mirror_service_base() const = 0; /** * Get a reference to the interface manager tree. * * This is a pure virtual function, and it must be implemented * by the communication-wrapper class that inherits this base class. * * @return a reference to the interface manager tree. */ virtual const IfMgrIfTree& ifmgr_iftree() const = 0; /** * Initiate registration with the FEA. * * This is a pure virtual function, and it must be implemented * by the communication-wrapper class that inherits this base class. */ virtual void fea_register_startup() = 0; /** * Initiate de-registration with the FEA. * * This is a pure virtual function, and it must be implemented * by the communication-wrapper class that inherits this base class. */ virtual void fea_register_shutdown() = 0; int add_pim_register_vif(); // Private state MfeaMrouter _mfea_mrouter; // The mrouter state vector<ProtoComm *> _proto_comms; // The set of active ProtoComm entries MfeaDft _mfea_dft; // The dataflow monitoring table // // The state to register: // - protocol instances // - protocol instances interested in receiving kernel signal messages ProtoRegister _proto_register; ProtoRegister _kernel_signal_messages_register; // // A local copy with the interface state information // IfMgrIfTree _iftree; // // Debug and test-related state // bool _is_log_trace; // If true, enable XLOG_TRACE() }; // // Global variables // // // Global functions prototypes // #endif // __FEA_MFEA_NODE_HH__