{
}
+const bridge_domain::arp_ufwd_mode_t bridge_domain::arp_ufwd_mode_t::ON(1,
+ "on");
+const bridge_domain::arp_ufwd_mode_t bridge_domain::arp_ufwd_mode_t::OFF(0,
+ "off");
+
+bridge_domain::arp_ufwd_mode_t::arp_ufwd_mode_t(int v, const std::string& s)
+ : enum_base<bridge_domain::arp_ufwd_mode_t>(v, s)
+{
+}
+
/**
* A DB of al the interfaces, key on the name
*/
bridge_domain::bridge_domain(uint32_t id,
const learning_mode_t& lmode,
const arp_term_mode_t& amode,
+ const arp_ufwd_mode_t& aumode,
const flood_mode_t& fmode,
const mac_age_mode_t& mmode)
: m_id(id)
, m_learning_mode(lmode)
, m_arp_term_mode(amode)
+ , m_arp_ufwd_mode(aumode)
, m_flood_mode(fmode)
, m_mac_age_mode(mmode)
{
: m_id(o.m_id)
, m_learning_mode(o.m_learning_mode)
, m_arp_term_mode(o.m_arp_term_mode)
+ , m_arp_ufwd_mode(o.m_arp_ufwd_mode)
, m_flood_mode(o.m_flood_mode)
, m_mac_age_mode(o.m_mac_age_mode)
{
return ((m_learning_mode == b.m_learning_mode) &&
(m_flood_mode == b.m_flood_mode) &&
(m_mac_age_mode == b.m_mac_age_mode) &&
- (m_arp_term_mode == b.m_arp_term_mode) && id() == b.id());
+ (m_arp_term_mode == b.m_arp_term_mode) &&
+ (m_arp_ufwd_mode == b.m_arp_ufwd_mode) && id() == b.id());
}
void
{
if (rc_t::OK == m_id.rc()) {
HW::enqueue(new bridge_domain_cmds::create_cmd(
- m_id, m_learning_mode, m_arp_term_mode, m_flood_mode, m_mac_age_mode));
+ m_id, m_learning_mode, m_arp_term_mode, m_arp_ufwd_mode, m_flood_mode,
+ m_mac_age_mode));
}
}
*/
if (rc_t::OK != m_id.rc()) {
HW::enqueue(new bridge_domain_cmds::create_cmd(
- m_id, m_learning_mode, m_arp_term_mode, m_flood_mode, m_mac_age_mode));
+ m_id, m_learning_mode, m_arp_term_mode, m_arp_ufwd_mode, m_flood_mode,
+ m_mac_age_mode));
}
}
arp_term_mode_t(int v, const std::string& s);
};
+ /**
+ * Bridge Domain ARP Unicast Forward mode
+ */
+ struct arp_ufwd_mode_t : enum_base<arp_ufwd_mode_t>
+ {
+ const static arp_ufwd_mode_t ON;
+ const static arp_ufwd_mode_t OFF;
+
+ private:
+ /**
+ * Private constructor taking the value and the string name
+ */
+ arp_ufwd_mode_t(int v, const std::string& s);
+ };
+
/**
* Bridge Domain MAC aging mode
*/
bridge_domain(uint32_t id,
const learning_mode_t& lmode = learning_mode_t::ON,
const arp_term_mode_t& amode = arp_term_mode_t::ON,
+ const arp_ufwd_mode_t& aumode = arp_ufwd_mode_t::OFF,
const flood_mode_t& fmode = flood_mode_t::ON,
const mac_age_mode_t& mmode = mac_age_mode_t::OFF);
*/
arp_term_mode_t m_arp_term_mode;
+ /**
+ * The ARP Unicast Forward mode of the bridge
+ */
+ arp_ufwd_mode_t m_arp_ufwd_mode;
+
/**
* The flood mode of the bridge
*/
create_cmd::create_cmd(HW::item<uint32_t>& item,
const bridge_domain::learning_mode_t& lmode,
const bridge_domain::arp_term_mode_t& amode,
+ const bridge_domain::arp_ufwd_mode_t& aumode,
const bridge_domain::flood_mode_t& fmode,
const bridge_domain::mac_age_mode_t& mmode)
: rpc_cmd(item)
, m_learning_mode(lmode)
, m_arp_term_mode(amode)
+ , m_arp_ufwd_mode(aumode)
, m_flood_mode(fmode)
, m_mac_age_mode(mmode)
{
payload.forward = 1;
payload.learn = m_learning_mode.value();
payload.arp_term = m_arp_term_mode.value();
+ payload.arp_ufwd = m_arp_ufwd_mode.value();
payload.mac_age = m_mac_age_mode.value();
payload.is_add = 1;
create_cmd(HW::item<uint32_t>& item,
const bridge_domain::learning_mode_t& lmode,
const bridge_domain::arp_term_mode_t& amode,
+ const bridge_domain::arp_ufwd_mode_t& aumode,
const bridge_domain::flood_mode_t& fmode,
const bridge_domain::mac_age_mode_t& mmode);
* the learning mode for the bridge
*/
bridge_domain::arp_term_mode_t m_arp_term_mode;
+ /**
+ * the learning mode for the bridge
+ */
+ bridge_domain::arp_ufwd_mode_t m_arp_ufwd_mode;
/**
* the flood mode for the bridge
*/