Source: ../../rip/xrl_target_common.hh
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// -*- c-basic-offset: 4; tab-width: 8; indent-tabs-mode: t -*-
// vim:set sts=4 ts=8:
// Copyright (c) 2001-2009 XORP, Inc.
//
// This program is free software; you can redistribute it and/or modify
// it under the terms of the GNU General Public License, Version 2, June
// 1991 as published by the Free Software Foundation. Redistribution
// and/or modification of this program under the terms of any other
// version of the GNU General Public License is not permitted.
//
// This program is distributed in the hope that it will be useful, but
// WITHOUT ANY WARRANTY; without even the implied warranty of
// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. For more details,
// see the GNU General Public License, Version 2, a copy of which can be
// found in the XORP LICENSE.gpl file.
//
// XORP Inc, 2953 Bunker Hill Lane, Suite 204, Santa Clara, CA 95054, USA;
// http://xorp.net
// $XORP: xorp/rip/xrl_target_common.hh,v 1.40 2009/01/05 18:31:08 jtc Exp $
#ifndef __RIP_XRL_TARGET_COMMON_HH__
#define __RIP_XRL_TARGET_COMMON_HH__
#include "libxorp/status_codes.h"
#include "peer.hh"
class XrlProcessSpy;
template <typename A> class XrlPortManager;
template <typename A> class System;
template <typename A> class XrlRedistManager;
/**
* @short Common handler for Xrl Requests.
*
* This class implements Xrl Target code that is common to both RIP
* and RIP NG.
*/
template <typename A>
class XrlRipCommonTarget {
public:
XrlRipCommonTarget(XrlProcessSpy& xps,
XrlPortManager<A>& xpm,
XrlRedistManager<A>& xrm,
bool& should_exit,
System<A>& rip_system);
~XrlRipCommonTarget();
void set_status(ProcessStatus ps, const string& annotation = "");
XrlCmdError common_0_1_get_status(uint32_t& status, string& reason);
XrlCmdError common_0_1_shutdown();
XrlCmdError
finder_event_observer_0_1_xrl_target_birth(const string& class_name,
const string& instance_name);
XrlCmdError
finder_event_observer_0_1_xrl_target_death(const string& class_name,
const string& instance_name);
XrlCmdError
ripx_0_1_add_rip_address(const string& ifname,
const string& vifname,
const A& addr);
XrlCmdError
ripx_0_1_remove_rip_address(const string& ifname,
const string& vifname,
const A& addr);
XrlCmdError
ripx_0_1_set_rip_address_enabled(const string& ifname,
const string& vifname,
const A& addr,
const bool& enabled);
XrlCmdError
ripx_0_1_rip_address_enabled(const string& ifname,
const string& vifname,
const A& addr,
bool& enabled);
XrlCmdError ripx_0_1_set_cost(const string& ifname,
const string& vifname,
const A& addr,
const uint32_t& cost);
XrlCmdError ripx_0_1_cost(const string& ifname,
const string& vifname,
const A& addr,
uint32_t& cost);
XrlCmdError ripx_0_1_set_horizon(const string& ifname,
const string& vifname,
const A& addr,
const string& horizon);
XrlCmdError ripx_0_1_horizon(const string& ifname,
const string& vifname,
const A& addr,
string& horizon);
XrlCmdError ripx_0_1_set_passive(const string& ifname,
const string& vifname,
const A& addr,
const bool& passive);
XrlCmdError ripx_0_1_passive(const string& ifname,
const string& vifname,
const A& addr,
bool& passive);
XrlCmdError
ripx_0_1_set_accept_non_rip_requests(const string& ifname,
const string& vifname,
const A& addr,
const bool& accept);
XrlCmdError ripx_0_1_accept_non_rip_requests(const string& ifname,
const string& vifname,
const A& addr,
bool& accept);
XrlCmdError ripx_0_1_set_accept_default_route(const string& ifname,
const string& vifname,
const A& addr,
const bool& accept);
XrlCmdError ripx_0_1_accept_default_route(const string& ifname,
const string& vifname,
const A& addr,
bool& accept);
XrlCmdError
ripx_0_1_set_advertise_default_route(const string& ifname,
const string& vifname,
const A& addr,
const bool& advertise);
XrlCmdError ripx_0_1_advertise_default_route(const string& ifname,
const string& vifname,
const A& addr,
bool& advertise);
XrlCmdError
ripx_0_1_set_route_timeout(const string& ifname,
const string& vifname,
const A& addr,
const uint32_t& t_secs);
XrlCmdError
ripx_0_1_route_timeout(const string& ifname,
const string& vifname,
const A& addr,
uint32_t& t_secs);
XrlCmdError
ripx_0_1_set_deletion_delay(const string& ifname,
const string& vifname,
const A& addr,
const uint32_t& t_secs);
XrlCmdError
ripx_0_1_deletion_delay(const string& ifname,
const string& vifname,
const A& addr,
uint32_t& t_secs);
XrlCmdError
ripx_0_1_set_request_interval(const string& ifname,
const string& vifname,
const A& addr,
const uint32_t& t_secs);
XrlCmdError
ripx_0_1_request_interval(const string& ifname,
const string& vifname,
const A& addr,
uint32_t& t_secs);
XrlCmdError
ripx_0_1_set_update_interval(const string& ifname,
const string& vifname,
const A& addr,
const uint32_t& t_secs);
XrlCmdError
ripx_0_1_update_interval(const string& ifname,
const string& vifname,
const A& addr,
uint32_t& t_secs);
XrlCmdError
ripx_0_1_set_update_jitter(const string& ifname,
const string& vifname,
const A& addr,
const uint32_t& t_jitter);
XrlCmdError
ripx_0_1_update_jitter(const string& ifname,
const string& vifname,
const A& addr,
uint32_t& t_secs);
XrlCmdError
ripx_0_1_set_triggered_update_delay(const string& ifname,
const string& vifname,
const A& addr,
const uint32_t& t_secs);
XrlCmdError
ripx_0_1_triggered_update_delay(const string& ifname,
const string& vifname,
const A& addr,
uint32_t& t_secs);
XrlCmdError
ripx_0_1_set_triggered_update_jitter(const string& ifname,
const string& vifname,
const A& addr,
const uint32_t& t_secs);
XrlCmdError
ripx_0_1_triggered_update_jitter(const string& ifname,
const string& vifname,
const A& addr,
uint32_t& t_secs);
XrlCmdError
ripx_0_1_set_interpacket_delay(const string& ifname,
const string& vifname,
const A& addr,
const uint32_t& t_msecs);
XrlCmdError
ripx_0_1_interpacket_delay(const string& ifname,
const string& vifname,
const A& addr,
uint32_t& t_msecs);
XrlCmdError ripx_0_1_rip_address_status(const string& ifname,
const string& vifname,
const A& addr,
string& status);
XrlCmdError ripx_0_1_get_all_addresses(XrlAtomList& ifnames,
XrlAtomList& vifnames,
XrlAtomList& addrs);
XrlCmdError ripx_0_1_get_peers(const string& ifname,
const string& vifname,
const A& addr,
XrlAtomList& peers);
XrlCmdError ripx_0_1_get_all_peers(XrlAtomList& peers,
XrlAtomList& ifnames,
XrlAtomList& vifnames,
XrlAtomList& addrs);
XrlCmdError ripx_0_1_get_counters(const string& ifname,
const string& vifname,
const A& addr,
XrlAtomList& descriptions,
XrlAtomList& values);
XrlCmdError ripx_0_1_get_peer_counters(const string& ifname,
const string& vifname,
const A& addr,
const A& peer,
XrlAtomList& descriptions,
XrlAtomList& values,
uint32_t& peer_last_pkt);
XrlCmdError trace(bool enable);
XrlCmdError socketx_user_0_1_recv_event(const string& sockid,
const string& if_name,
const string& vif_name,
const A& src_host,
const uint32_t& src_port,
const vector<uint8_t>& pdata);
XrlCmdError socketx_user_0_1_inbound_connect_event(
const string& sockid,
const A& src_host,
const uint32_t& src_port,
const string& new_sockid,
bool& accept);
XrlCmdError socketx_user_0_1_outgoing_connect_event(
const string& sockid);
XrlCmdError socketx_user_0_1_error_event(const string& sockid,
const string& reason,
const bool& fatal);
XrlCmdError socketx_user_0_1_disconnect_event(const string& sockid);
XrlCmdError policy_backend_0_1_configure(const uint32_t& filter,
const string& conf);
XrlCmdError policy_backend_0_1_reset(const uint32_t& filter);
XrlCmdError policy_backend_0_1_push_routes();
XrlCmdError policy_redistx_0_1_add_routex(const IPNet<A>& net,
const bool& unicast,
const bool& multicast,
const A& nexthop,
const uint32_t& metric,
const XrlAtomList& policytags);
XrlCmdError policy_redistx_0_1_delete_routex(const IPNet<A>& net,
const bool& unicast,
const bool& multicast);
/**
* Find Port associated with ifname, vifname, addr.
*
* @return on success the first item in the pair will be a
* non-null pointer to the port and the second item with be
* XrlCmdError::OKAY(). On failyre the first item in the pair
* will be null and the XrlCmdError will signify the reason for
* the failure.
*/
pair<Port<A>*,XrlCmdError> find_port(const string& ifname,
const string& vifname,
const A& addr);
protected:
XrlProcessSpy& _xps;
XrlPortManager<A>& _xpm;
XrlRedistManager<A>& _xrm;
bool& _should_exit;
ProcessStatus _status;
string _status_note;
System<A>& _rip_system;
};
�
// ----------------------------------------------------------------------------
// Inline implementation of XrlRipCommonTarget
template <typename A>
XrlRipCommonTarget<A>::XrlRipCommonTarget(XrlProcessSpy& xps,
XrlPortManager<A>& xpm,
XrlRedistManager<A>& xrm,
bool& should_exit,
System<A>& rip_system)
: _xps(xps), _xpm(xpm), _xrm(xrm),
_should_exit(should_exit), _status(PROC_NULL), _status_note(""),
_rip_system(rip_system)
{
}
template <typename A>
XrlRipCommonTarget<A>::~XrlRipCommonTarget()
{
}
template <typename A>
void
XrlRipCommonTarget<A>::set_status(ProcessStatus status, const string& note)
{
debug_msg("Status Update %d -> %d: %s\n", _status, status, note.c_str());
_status = status;
_status_note = note;
}
template <typename A>
XrlCmdError
XrlRipCommonTarget<A>::common_0_1_get_status(uint32_t& status,
string& reason)
{
status = _status;
reason = _status_note;
return XrlCmdError::OKAY();
}
template <typename A>
XrlCmdError
XrlRipCommonTarget<A>::common_0_1_shutdown()
{
debug_msg("Shutdown requested.\n");
_should_exit = true;
return XrlCmdError::OKAY();
}
template <typename A>
XrlCmdError
XrlRipCommonTarget<A>::finder_event_observer_0_1_xrl_target_birth(
const string& cname,
const string& iname
)
{
_xps.birth_event(cname, iname);
return XrlCmdError::OKAY();
}
template <typename A>
XrlCmdError
XrlRipCommonTarget<A>::finder_event_observer_0_1_xrl_target_death(
const string& cname,
const string& iname
)
{
_xps.death_event(cname, iname);
return XrlCmdError::OKAY();
}
template <typename A>
XrlCmdError
XrlRipCommonTarget<A>::ripx_0_1_add_rip_address(const string& ifname,
const string& vifname,
const A& addr)
{
debug_msg("rip_x_1_add_rip_address %s/%s/%s\n",
ifname.c_str(), vifname.c_str(), addr.str().c_str());
if (_xpm.add_rip_address(ifname, vifname, addr) == false) {
return XrlCmdError::COMMAND_FAILED();
}
return XrlCmdError::OKAY();
}
template <typename A>
XrlCmdError
XrlRipCommonTarget<A>::ripx_0_1_remove_rip_address(const string& ifname,
const string& vifname,
const A& addr)
{
debug_msg("ripx_0_1_remove_rip_address %s/%s/%s\n",
ifname.c_str(), vifname.c_str(), addr.str().c_str());
if (_xpm.remove_rip_address(ifname, vifname, addr) == false) {
return XrlCmdError::COMMAND_FAILED();
}
return XrlCmdError::OKAY();
}
�
// ----------------------------------------------------------------------------
// Utility methods
template <typename A>
pair<Port<A>*, XrlCmdError>
XrlRipCommonTarget<A>::find_port(const string& ifn,
const string& vifn,
const A& addr)
{
Port<A>* p = _xpm.find_port(ifn, vifn, addr);
if (p == 0) {
string e = c_format("RIP not running on %s/%s/%s",
ifn.c_str(), vifn.c_str(), addr.str().c_str());
return make_pair(p, XrlCmdError::COMMAND_FAILED(e));
}
return make_pair(p, XrlCmdError::OKAY());
}
�
// ----------------------------------------------------------------------------
// Port configuration accessors and modifiers
template <typename A>
XrlCmdError
XrlRipCommonTarget<A>::ripx_0_1_set_rip_address_enabled(const string& ifn,
const string& vifn,
const A& addr,
const bool& en)
{
pair<Port<A>*, XrlCmdError> pp = find_port(ifn, vifn, addr);
if (pp.first == 0)
return pp.second;
Port<A>* p = pp.first;
p->set_enabled(en);
return XrlCmdError::OKAY();
}
template <typename A>
XrlCmdError
XrlRipCommonTarget<A>::ripx_0_1_rip_address_enabled(const string& ifn,
const string& vifn,
const A& addr,
bool& en)
{
pair<Port<A>*, XrlCmdError> pp = find_port(ifn, vifn, addr);
if (pp.first == 0)
return pp.second;
Port<A>* p = pp.first;
en = p->enabled();
return XrlCmdError::OKAY();
}
template <typename A>
XrlCmdError
XrlRipCommonTarget<A>::ripx_0_1_set_cost(const string& ifname,
const string& vifname,
const A& addr,
const uint32_t& cost)
{
pair<Port<A>*, XrlCmdError> pp = find_port(ifname, vifname, addr);
if (pp.first == 0)
return pp.second;
Port<A>* p = pp.first;
if (cost > RIP_INFINITY) {
string e = c_format("Cost must be less that RIP infinity (%u)",
XORP_UINT_CAST(RIP_INFINITY));
return XrlCmdError::COMMAND_FAILED(e);
}
p->set_cost(cost);
return XrlCmdError::OKAY();
}
template <typename A>
XrlCmdError
XrlRipCommonTarget<A>::ripx_0_1_cost(const string& ifname,
const string& vifname,
const A& addr,
uint32_t& cost)
{
pair<Port<A>*, XrlCmdError> pp = find_port(ifname, vifname, addr);
if (pp.first == 0)
return pp.second;
Port<A>* p = pp.first;
cost = p->cost();
return XrlCmdError::OKAY();
}
template <typename A>
XrlCmdError
XrlRipCommonTarget<A>::ripx_0_1_set_horizon(const string& ifname,
const string& vifname,
const A& addr,
const string& horizon)
{
pair<Port<A>*, XrlCmdError> pp = find_port(ifname, vifname, addr);
if (pp.first == 0)
return pp.second;
Port<A>* p = pp.first;
RipHorizon rh[3] = { NONE, SPLIT, SPLIT_POISON_REVERSE };
for (uint32_t i = 0; i < 3; ++i) {
if (string(rip_horizon_name(rh[i])) == horizon) {
p->set_horizon(rh[i]);
return XrlCmdError::OKAY();
}
}
return XrlCmdError::COMMAND_FAILED(
c_format("Horizon type \"%s\" not recognized.",
horizon.c_str()));
}
template <typename A>
XrlCmdError
XrlRipCommonTarget<A>::ripx_0_1_horizon(const string& ifname,
const string& vifname,
const A& addr,
string& horizon)
{
pair<Port<A>*, XrlCmdError> pp = find_port(ifname, vifname, addr);
if (pp.first == 0)
return pp.second;
Port<A>* p = pp.first;
horizon = rip_horizon_name(p->horizon());
return XrlCmdError::OKAY();
}
template <typename A>
XrlCmdError
XrlRipCommonTarget<A>::ripx_0_1_set_passive(const string& ifname,
const string& vifname,
const A& addr,
const bool& passive)
{
pair<Port<A>*, XrlCmdError> pp = find_port(ifname, vifname, addr);
if (pp.first == 0)
return pp.second;
Port<A>* p = pp.first;
p->set_passive(passive);
return XrlCmdError::OKAY();
}
template <typename A>
XrlCmdError
XrlRipCommonTarget<A>::ripx_0_1_passive(const string& ifname,
const string& vifname,
const A& addr,
bool& passive)
{
pair<Port<A>*, XrlCmdError> pp = find_port(ifname, vifname, addr);
if (pp.first == 0)
return pp.second;
Port<A>* p = pp.first;
passive = p->passive();
return XrlCmdError::OKAY();
}
template <typename A>
XrlCmdError
XrlRipCommonTarget<A>::ripx_0_1_set_accept_non_rip_requests(
const string& ifname,
const string& vifname,
const A& addr,
const bool& accept
)
{
pair<Port<A>*, XrlCmdError> pp = find_port(ifname, vifname, addr);
if (pp.first == 0)
return pp.second;
Port<A>* p = pp.first;
p->set_accept_non_rip_requests(accept);
return XrlCmdError::OKAY();
}
template <typename A>
XrlCmdError
XrlRipCommonTarget<A>::ripx_0_1_accept_non_rip_requests(
const string& ifname,
const string& vifname,
const A& addr,
bool& accept
)
{
pair<Port<A>*, XrlCmdError> pp = find_port(ifname, vifname, addr);
if (pp.first == 0)
return pp.second;
Port<A>* p = pp.first;
accept = p->accept_non_rip_requests();
return XrlCmdError::OKAY();
}
template <typename A>
XrlCmdError
XrlRipCommonTarget<A>::ripx_0_1_set_accept_default_route(
const string& ifname,
const string& vifname,
const A& addr,
const bool& accept
)
{
pair<Port<A>*, XrlCmdError> pp = find_port(ifname, vifname, addr);
if (pp.first == 0)
return pp.second;
Port<A>* p = pp.first;
p->set_accept_default_route(accept);
return XrlCmdError::OKAY();
}
template <typename A>
XrlCmdError
XrlRipCommonTarget<A>::ripx_0_1_accept_default_route(
const string& ifname,
const string& vifname,
const A& addr,
bool& accept
)
{
pair<Port<A>*, XrlCmdError> pp = find_port(ifname, vifname, addr);
if (pp.first == 0)
return pp.second;
Port<A>* p = pp.first;
accept = p->accept_default_route();
return XrlCmdError::OKAY();
}
template <typename A>
XrlCmdError
XrlRipCommonTarget<A>::ripx_0_1_set_advertise_default_route(
const string& ifname,
const string& vifname,
const A& addr,
const bool& advertise
)
{
pair<Port<A>*, XrlCmdError> pp = find_port(ifname, vifname, addr);
if (pp.first == 0)
return pp.second;
Port<A>* p = pp.first;
p->set_advertise_default_route(advertise);
return XrlCmdError::OKAY();
}
template <typename A>
XrlCmdError
XrlRipCommonTarget<A>::ripx_0_1_advertise_default_route(
const string& ifname,
const string& vifname,
const A& addr,
bool& advertise
)
{
pair<Port<A>*, XrlCmdError> pp = find_port(ifname, vifname, addr);
if (pp.first == 0)
return pp.second;
Port<A>* p = pp.first;
advertise = p->advertise_default_route();
return XrlCmdError::OKAY();
}
�
// ----------------------------------------------------------------------------
// The following pair of macros are used in setting timer constants on
// RIP ports.
#define PORT_TIMER_SET_HANDLER(field, t, min_val, max_val, method) \
do { \
pair<Port<A>*, XrlCmdError> pp = find_port(ifname, vifname, addr); \
if (pp.first == 0) \
return pp.second; \
Port<A>* p = pp.first; \
\
if (static_cast<int32_t>(t) < min_val) \
return XrlCmdError::COMMAND_FAILED(c_format( \
"value supplied less than permitted minimum (%u < %u)", \
XORP_UINT_CAST(t), XORP_UINT_CAST(min_val))); \
if (t > max_val) \
return XrlCmdError::COMMAND_FAILED(c_format( \
"value supplied greater than permitted maximum (%u > %u)", \
XORP_UINT_CAST(t), XORP_UINT_CAST(max_val))); \
if (p->constants().set_##field (t) == false) \
return XrlCmdError::COMMAND_FAILED( \
"Failed to set value."); \
p->reschedule_##method (); \
return XrlCmdError::OKAY(); \
} while (0)
#define PORT_TIMER_GET_HANDLER(field, t) \
do { \
pair<Port<A>*, XrlCmdError> pp = find_port(ifname, vifname, addr); \
if (pp.first == 0) \
return pp.second; \
Port<A>* p = pp.first; \
t = p->constants(). field (); \
return XrlCmdError::OKAY(); \
} while (0)
�
template <typename A>
XrlCmdError
XrlRipCommonTarget<A>::ripx_0_1_set_route_timeout(
const string& ifname,
const string& vifname,
const A& addr,
const uint32_t& t
)
{
PORT_TIMER_SET_HANDLER(expiry_secs, t, 10, 10000, dummy_timer);
}
template <typename A>
XrlCmdError
XrlRipCommonTarget<A>::ripx_0_1_route_timeout(
const string& ifname,
const string& vifname,
const A& addr,
uint32_t& t
)
{
PORT_TIMER_GET_HANDLER(expiry_secs, t);
}
template <typename A>
XrlCmdError
XrlRipCommonTarget<A>::ripx_0_1_set_deletion_delay(
const string& ifname,
const string& vifname,
const A& addr,
const uint32_t& t
)
{
PORT_TIMER_SET_HANDLER(deletion_secs, t, 10, 10000, dummy_timer);
}
template <typename A>
XrlCmdError
XrlRipCommonTarget<A>::ripx_0_1_deletion_delay(
const string& ifname,
const string& vifname,
const A& addr,
uint32_t& t
)
{
PORT_TIMER_GET_HANDLER(deletion_secs, t);
}
template <typename A>
XrlCmdError
XrlRipCommonTarget<A>::ripx_0_1_set_request_interval(
const string& ifname,
const string& vifname,
const A& addr,
const uint32_t& t
)
{
PORT_TIMER_SET_HANDLER(table_request_period_secs, t, 0, 10000,
request_table_timer);
}
template <typename A>
XrlCmdError
XrlRipCommonTarget<A>::ripx_0_1_request_interval(
const string& ifname,
const string& vifname,
const A& addr,
uint32_t& t
)
{
PORT_TIMER_GET_HANDLER(table_request_period_secs, t);
}
template <typename A>
XrlCmdError
XrlRipCommonTarget<A>::ripx_0_1_set_update_interval(
const string& ifname,
const string& vifname,
const A& addr,
const uint32_t& t_secs
)
{
PORT_TIMER_SET_HANDLER(update_interval, t_secs, 1, 600, dummy_timer);
}
template <typename A>
XrlCmdError
XrlRipCommonTarget<A>::ripx_0_1_update_interval(const string& ifname,
const string& vifname,
const A& addr,
uint32_t& t_secs)
{
PORT_TIMER_GET_HANDLER(update_interval, t_secs);
}
template <typename A>
XrlCmdError
XrlRipCommonTarget<A>::ripx_0_1_set_update_jitter(const string& ifname,
const string& vifname,
const A& addr,
const uint32_t& t_jitter)
{
PORT_TIMER_SET_HANDLER(update_jitter, t_jitter, 0, 100, dummy_timer);
}
template <typename A>
XrlCmdError
XrlRipCommonTarget<A>::ripx_0_1_update_jitter(const string& ifname,
const string& vifname,
const A& addr,
uint32_t& t_jitter)
{
PORT_TIMER_GET_HANDLER(update_jitter, t_jitter);
}
template <typename A>
XrlCmdError
XrlRipCommonTarget<A>::ripx_0_1_set_triggered_update_delay(
const string& ifname,
const string& vifname,
const A& addr,
const uint32_t& t_secs)
{
PORT_TIMER_SET_HANDLER(triggered_update_delay, t_secs, 1, 10000,
dummy_timer);
}
template <typename A>
XrlCmdError
XrlRipCommonTarget<A>::ripx_0_1_triggered_update_delay(
const string& ifname,
const string& vifname,
const A& addr,
uint32_t& t_secs)
{
PORT_TIMER_GET_HANDLER(triggered_update_delay, t_secs);
}
template <typename A>
XrlCmdError
XrlRipCommonTarget<A>::ripx_0_1_set_triggered_update_jitter(
const string& ifname,
const string& vifname,
const A& addr,
const uint32_t& t_jitter)
{
PORT_TIMER_SET_HANDLER(triggered_update_jitter, t_jitter, 0, 100,
dummy_timer);
}
template <typename A>
XrlCmdError
XrlRipCommonTarget<A>::ripx_0_1_triggered_update_jitter(
const string& ifname,
const string& vifname,
const A& addr,
uint32_t& t_jitter)
{
PORT_TIMER_GET_HANDLER(triggered_update_jitter, t_jitter);
}
template <typename A>
XrlCmdError
XrlRipCommonTarget<A>::ripx_0_1_set_interpacket_delay(
const string& ifname,
const string& vifname,
const A& addr,
const uint32_t& t_msecs
)
{
PORT_TIMER_SET_HANDLER(interpacket_delay_ms, t_msecs, 10, 10000,
dummy_timer);
}
template <typename A>
XrlCmdError
XrlRipCommonTarget<A>::ripx_0_1_interpacket_delay(
const string& ifname,
const string& vifname,
const A& addr,
uint32_t& t_msecs
)
{
PORT_TIMER_GET_HANDLER(interpacket_delay_ms, t_msecs);
}
template <typename A>
XrlCmdError
XrlRipCommonTarget<A>::ripx_0_1_rip_address_status(const string& ifn,
const string& vifn,
const A& addr,
string& status)
{
pair<Port<A>*, XrlCmdError> pp = find_port(ifn, vifn, addr);
if (pp.first == 0)
return pp.second;
Port<A>* p = pp.first;
status = p->enabled() ? "enabled" : "disabled";
if (p->enabled()
&& _xpm.underlying_rip_address_up(ifn, vifn, addr) == false) {
if (_xpm.underlying_rip_address_exists(ifn, vifn, addr)) {
status += " [gated by disabled FEA interface/vif/address]";
} else {
status += " [gated by non-existant FEA interface/vif/address]";
}
}
debug_msg("ripx_0_1_rip_address_status %s/%s/%s -> %s\n",
ifn.c_str(), vifn.c_str(), addr.str().c_str(),
status.c_str());
return XrlCmdError::OKAY();
}
template <typename A>
XrlCmdError
XrlRipCommonTarget<A>::ripx_0_1_get_all_addresses(XrlAtomList& ifnames,
XrlAtomList& vifnames,
XrlAtomList& addrs)
{
const typename PortManagerBase<A>::PortList & ports = _xpm.const_ports();
typename PortManagerBase<A>::PortList::const_iterator pci;
for (pci = ports.begin(); pci != ports.end(); ++pci) {
const Port<A>* port = *pci;
const PortIOBase<A>* pio = port->io_handler();
if (pio == 0) {
continue;
}
ifnames.append ( XrlAtom(pio->ifname()) );
vifnames.append ( XrlAtom(pio->vifname()) );
addrs.append ( XrlAtom(pio->address()) );
}
return XrlCmdError::OKAY();
}
template <typename A>
XrlCmdError
XrlRipCommonTarget<A>::ripx_0_1_get_peers(const string& ifn,
const string& vifn,
const A& addr,
XrlAtomList& peers)
{
pair<Port<A>*, XrlCmdError> pp = find_port(ifn, vifn, addr);
if (pp.first == 0)
return pp.second;
Port<A>* p = pp.first;
typename Port<A>::PeerList::const_iterator pi = p->peers().begin();
while (pi != p->peers().end()) {
const Peer<A>* peer = *pi;
peers.append(XrlAtom(peer->address()));
++pi;
}
return XrlCmdError::OKAY();
}
template <typename A>
XrlCmdError
XrlRipCommonTarget<A>::ripx_0_1_get_all_peers(XrlAtomList& peers,
XrlAtomList& ifnames,
XrlAtomList& vifnames,
XrlAtomList& addrs)
{
const typename PortManagerBase<A>::PortList & ports = _xpm.const_ports();
typename PortManagerBase<A>::PortList::const_iterator pci;
for (pci = ports.begin(); pci != ports.end(); ++pci) {
const Port<A>* port = *pci;
const PortIOBase<A>* pio = port->io_handler();
if (pio == 0) {
continue;
}
typename Port<A>::PeerList::const_iterator pi;
for (pi = port->peers().begin(); pi != port->peers().end(); ++pi) {
const Peer<A>* peer = *pi;
peers.append ( XrlAtom(peer->address()) );
ifnames.append ( XrlAtom(pio->ifname()) );
vifnames.append ( XrlAtom(pio->vifname()) );
addrs.append ( XrlAtom(pio->address()) );
}
}
return XrlCmdError::OKAY();
}
template <typename A>
XrlCmdError
XrlRipCommonTarget<A>::ripx_0_1_get_counters(const string& ifn,
const string& vifn,
const A& addr,
XrlAtomList& descriptions,
XrlAtomList& values)
{
pair<Port<A>*, XrlCmdError> pp = find_port(ifn, vifn, addr);
if (pp.first == 0)
return pp.second;
const Port<A>* p = pp.first;
descriptions.append(XrlAtom("", string("Requests Sent")));
values.append(XrlAtom(p->counters().table_requests_sent()));
descriptions.append(XrlAtom("", string("Updates Sent")));
values.append(XrlAtom(p->counters().unsolicited_updates()));
descriptions.append(XrlAtom("", string("Triggered Updates Sent")));
values.append(XrlAtom(p->counters().triggered_updates()));
descriptions.append(XrlAtom("", string("Non-RIP Updates Sent")));
values.append(XrlAtom(p->counters().non_rip_updates_sent()));
descriptions.append(XrlAtom("", string("Total Packets Received")));
values.append(XrlAtom(p->counters().packets_recv()));
descriptions.append(XrlAtom("", string("Request Packets Received")));
values.append(XrlAtom(p->counters().table_requests_recv()));
descriptions.append(XrlAtom("", string("Update Packets Received")));
values.append(XrlAtom(p->counters().update_packets_recv()));
descriptions.append(XrlAtom("", string("Bad Packets Received")));
values.append(XrlAtom(p->counters().bad_packets()));
if (A::ip_version() == 4) {
descriptions.append(XrlAtom("", string("Authentication Failures")));
values.append(XrlAtom(p->counters().bad_auth_packets()));
}
descriptions.append(XrlAtom("", string("Bad Routes Received")));
values.append(XrlAtom(p->counters().bad_routes()));
descriptions.append(XrlAtom("", string("Non-RIP Requests Received")));
values.append(XrlAtom(p->counters().non_rip_requests_recv()));
return XrlCmdError::OKAY();
}
template <typename A>
XrlCmdError
XrlRipCommonTarget<A>::ripx_0_1_get_peer_counters(
const string& ifn,
const string& vifn,
const A& addr,
const A& peer_addr,
XrlAtomList& descriptions,
XrlAtomList& values,
uint32_t& peer_last_active)
{
pair<Port<A>*, XrlCmdError> pp = find_port(ifn, vifn, addr);
if (pp.first == 0)
return pp.second;
const Port<A>* port = pp.first;
typename Port<A>::PeerList::const_iterator pi;
pi = find_if(port->peers().begin(), port->peers().end(),
peer_has_address<A>(peer_addr));
if (pi == port->peers().end()) {
return XrlCmdError::COMMAND_FAILED(
c_format("Peer %s not found on %s/%s/%s",
peer_addr.str().c_str(), ifn.c_str(), vifn.c_str(),
addr.str().c_str())
);
}
const Peer<A>* const peer = *pi;
descriptions.append( XrlAtom("", string("Total Packets Received")) );
values.append( XrlAtom(peer->counters().packets_recv()) );
descriptions.append(XrlAtom("", string("Request Packets Received")));
values.append(XrlAtom(peer->counters().table_requests_recv()));
descriptions.append(XrlAtom("", string("Update Packets Received")));
values.append(XrlAtom(peer->counters().update_packets_recv()));
descriptions.append(XrlAtom("", string("Bad Packets Received")));
values.append(XrlAtom(peer->counters().bad_packets()));
if (A::ip_version() == 4) {
descriptions.append(XrlAtom("", string("Authentication Failures")));
values.append(XrlAtom(peer->counters().bad_auth_packets()));
}
descriptions.append(XrlAtom("", string("Bad Routes Received")));
values.append(XrlAtom(peer->counters().bad_routes()));
descriptions.append(XrlAtom("", string("Routes Active")));
values.append(XrlAtom(peer->route_count()));
peer_last_active = peer->last_active().sec();
return XrlCmdError::OKAY();
}
template <typename A>
XrlCmdError
XrlRipCommonTarget<A>::trace(bool enable)
{
_rip_system.route_trace().all(enable);
_xpm.packet_trace().all(enable);
return XrlCmdError::OKAY();
}
template <typename A>
XrlCmdError
XrlRipCommonTarget<A>::socketx_user_0_1_recv_event(
const string& sockid,
const string& if_name,
const string& vif_name,
const A& src_host,
const uint32_t& src_port,
const vector<uint8_t>& pdata
)
{
_xpm.deliver_packet(sockid, if_name, vif_name, src_host, src_port, pdata);
return XrlCmdError::OKAY();
}
template <typename A>
XrlCmdError
XrlRipCommonTarget<A>::socketx_user_0_1_inbound_connect_event(
const string& sockid,
const A& src_host,
const uint32_t& src_port,
const string& new_sockid,
bool& accept
)
{
debug_msg("socketx_user_0_1_inbound_connect_event %s %s/%u %s\n",
sockid.c_str(), src_host.str().c_str(),
XORP_UINT_CAST(src_port), new_sockid.c_str());
UNUSED(sockid);
UNUSED(src_host);
UNUSED(src_port);
UNUSED(new_sockid);
accept = false;
return XrlCmdError::COMMAND_FAILED("Inbound connect not requested.");
}
template <typename A>
XrlCmdError
XrlRipCommonTarget<A>::socketx_user_0_1_outgoing_connect_event(
const string& sockid
)
{
debug_msg("socketx_user_0_1_outgoing_connect_event %s\n",
sockid.c_str());
UNUSED(sockid);
return XrlCmdError::COMMAND_FAILED("Outgoing connect not requested.");
}
template <typename A>
XrlCmdError
XrlRipCommonTarget<A>::socketx_user_0_1_error_event(
const string& sockid,
const string& reason,
const bool& fatal
)
{
debug_msg("socketx_user_0_1_error_event %s %s %s \n",
sockid.c_str(), reason.c_str(),
fatal ? "fatal" : "non-fatal");
UNUSED(sockid);
UNUSED(reason);
UNUSED(fatal);
return XrlCmdError::OKAY();
}
template <typename A>
XrlCmdError
XrlRipCommonTarget<A>::socketx_user_0_1_disconnect_event(
const string& sockid
)
{
debug_msg("socketx_user_0_1_disconnect_event %s\n",
sockid.c_str());
UNUSED(sockid);
return XrlCmdError::OKAY();
}
template <typename A>
XrlCmdError
XrlRipCommonTarget<A>::policy_backend_0_1_configure(const uint32_t& filter,
const string& conf)
{
try {
_rip_system.configure_filter(filter, conf);
} catch(const PolicyException& e) {
return XrlCmdError::COMMAND_FAILED("Filter configure failed: " +
e.str());
}
return XrlCmdError::OKAY();
}
template <typename A>
XrlCmdError
XrlRipCommonTarget<A>::policy_backend_0_1_reset(const uint32_t& filter)
{
try {
_rip_system.reset_filter(filter);
} catch(const PolicyException& e) {
return XrlCmdError::COMMAND_FAILED("Filter reset failed: " +
e.str());
}
return XrlCmdError::OKAY();
}
template <typename A>
XrlCmdError
XrlRipCommonTarget<A>::policy_backend_0_1_push_routes()
{
_rip_system.push_routes();
return XrlCmdError::OKAY();
}
template <typename A>
XrlCmdError
XrlRipCommonTarget<A>::policy_redistx_0_1_add_routex(const IPNet<A>& net,
const bool& unicast,
const bool& multicast,
const A& nexthop,
const uint32_t& metric,
const XrlAtomList& policytags)
{
string ifname, vifname;
UNUSED(multicast);
if (! unicast)
return XrlCmdError::OKAY();
//
// XXX: The interface and vif name are empty, because the policy
// mechanism doesn't support setting them (yet).
//
_xrm.add_route(net, nexthop, ifname, vifname, metric, 0, policytags);
return XrlCmdError::OKAY();
}
template <typename A>
XrlCmdError
XrlRipCommonTarget<A>::policy_redistx_0_1_delete_routex(const IPNet<A>& net,
const bool& unicast,
const bool& multicast)
{
UNUSED(multicast);
if (! unicast)
return XrlCmdError::OKAY();
_xrm.delete_route(net);
return XrlCmdError::OKAY();
}
#endif // __RIPX_XRL_TARGET_COMMON_HH__
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