class BGPPeerData
Data that applies to a specific peering. More...
 
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Public Types

Public Methods

Detailed Description

Data that applies to a specific peering.

 BGPPeerData (const LocalData& local_data, const Iptuple& iptuple, AsNum as, const IPv4& next_hop, const uint16_t holdtime)

BGPPeerData

 ~BGPPeerData ()

~BGPPeerData

const Iptuple&  iptuple ()

iptuple

[const]

const AsNum&  as ()

as

[const]

void  set_as (const AsNum& a)

set_as

bool  use_4byte_asnums ()

use_4byte_asnums

[const]

void  set_use_4byte_asnums (bool use)

set_use_4byte_asnums

bool  we_use_4byte_asnums ()

we_use_4byte_asnums

[const]

uint32_t  get_hold_duration ()

get_hold_duration

[const]

void  set_hold_duration (uint32_t d)

set_hold_duration

uint32_t  get_retry_duration ()

get_retry_duration

[const]

void  set_retry_duration (uint32_t d)

set_retry_duration

uint32_t  get_keepalive_duration ()

get_keepalive_duration

[const]

void  set_keepalive_duration (uint32_t d)

set_keepalive_duration

const IPv4&  id ()

id

[const]

The peers BGP ID.

void  set_id (const IPv4& i)

set_id

bool  route_reflector ()

route_reflector

[const]

void  set_route_reflector (bool rr)

set_route_reflector

bool  confederation ()

confederation

[const]

void  set_confederation (bool conf)

set_confederation

ConfigVar<uint32_t>&  get_prefix_limit ()

get_prefix_limit

Returns: the prefix limit.

const AsNum  my_AS_number ()

my_AS_number

[const]

Return this routers AS number. Normally this is simple, but if this router is in a confederation then the AS number depends on the the type of the peering.

void  compute_peer_type ()

compute_peer_type

Compute the type of this peering.

string  get_peer_type_str ()

get_peer_type_str

[const]

PeerType  get_peer_type ()

get_peer_type

[const]

bool  ibgp ()

ibgp

[const]

true if peer type is either PEER_TYPE_IBGP or PEER_TYPE_IBGP_CLIENT

bool  ibgp_vanilla ()

ibgp_vanilla

[const]

true if peer type is PEER_TYPE_IEBGP

bool  ibgp_client ()

ibgp_client

[const]

true if peer type is PEER_TYPE_IBGP_CLIENT

bool  ebgp_vanilla ()

ebgp_vanilla

[const]

true if peer type is PEER_TYPE_EBGP

bool  ebgp_confed ()

ebgp_confed

[const]

true if peer type is PEER_TYPE_EBGP_CONFED

void  add_recv_parameter (const ParameterNode& p)

add_recv_parameter

void  remove_recv_parameter (const ParameterNode& p)

remove_recv_parameter

void  add_sent_parameter (const ParameterNode& p)

add_sent_parameter

void  remove_sent_parameter (const ParameterNode& p)

remove_sent_parameter

void  add_negotiated_parameter (const ParameterNode& p)

add_negotiated_parameter

void  remove_negotiated_parameter (const ParameterNode& p)

remove_negotiated_parameter

const ParameterList&  parameter_recv_list ()

parameter_recv_list

[const]

const ParameterList&  parameter_sent_list ()

parameter_sent_list

[const]

const ParameterList&  parameter_negotiated_list ()

parameter_negotiated_list

[const]

void  save_parameters (const ParameterList& parameter_list)

save_parameters

Take the optional parameters out of an open packet and save them in _recv_parameters. The list is accessible through the parameter_recv_list method.

void  open_negotiation ()

open_negotiation

Go through the parameters that we have sent and the ones that our peer has sent us and drop state into the _negotiated_parameters list.

enum Direction { SENT = 0, RECEIVED = 1, NEGOTIATED = 2, ARRAY_SIZE = 3 }

Direction

Multiprotocol option negotiation.

template <class A> bool  multiprotocol (Safi safi, Direction d = NEGOTIATED)

multiprotocol

[const]

Which multiprotocol parameters did we send,receive and negotiate

Parameters:

safi- Subsequent address family identifier
d- direction, SENT, RECEIVED or NEGOTIATED

Returns: true if this parameter was set

template <class A> void  set_multiprotocol (Safi safi, Direction d = NEGOTIATED)

set_multiprotocol

bool  ipv4_unicast (Direction d = NEGOTIATED)

ipv4_unicast

[const]

bool  ipv6_unicast (Direction d = NEGOTIATED)

ipv6_unicast

[const]

bool  ipv4_multicast (Direction d = NEGOTIATED)

ipv4_multicast

[const]

bool  ipv6_multicast (Direction d = NEGOTIATED)

ipv6_multicast

[const]

void  set_v4_local_addr (const IPv4& addr)

set_v4_local_addr

void  set_v6_local_addr (const IPv6& addr)

set_v6_local_addr

const IPv4&  get_v4_local_addr ()

get_v4_local_addr

[const]

const IPv6&  get_v6_local_addr ()

get_v6_local_addr

[const]

void  set_configured_hold_time (uint16_t hold)

set_configured_hold_time

uint16_t  get_configured_hold_time ()

get_configured_hold_time

[const]

void  set_delay_open_time (uint32_t delay_open_time)

set_delay_open_time

uint32_t  get_delay_open_time ()

get_delay_open_time

[const]

void  set_next_hop_rewrite (const IPv4& next_hop)

set_next_hop_rewrite

const IPv4  get_next_hop_rewrite ()

get_next_hop_rewrite

[const]

void  set_md5_password (const string &password)

set_md5_password

const string&  get_md5_password ()

get_md5_password

[const]

void  dump_peer_data ()

dump_peer_data

[const]

Dump the state of the peer data (debugging).

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