/
agent.h
1137 lines (960 loc) · 35.3 KB
/
agent.h
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/*
* Copyright (c) 2013 Juniper Networks, Inc. All rights reserved.
*/
#ifndef vnsw_agent_hpp
#define vnsw_agent_hpp
#include <vector>
#include <stdint.h>
#include <net/ethernet.h>
#include <boost/intrusive_ptr.hpp>
#include <cmn/agent_cmn.h>
#include <base/connection_info.h>
#include "net/mac_address.h"
class Agent;
class AgentParam;
class AgentConfig;
class AgentStats;
class KSync;
class AgentUveBase;
class PktModule;
class VirtualGateway;
class ServicesModule;
class MulticastHandler;
class DiscoveryAgentClient;
class AgentDBEntry;
class XmppClient;
class OperDB;
class AgentRoute;
class TaskScheduler;
class AgentInit;
class AgentStatsCollector;
class FlowStatsCollector;
namespace OVSDB {
class OvsdbClient;
};
class ConfigManager;
class Interface;
typedef boost::intrusive_ptr<Interface> InterfaceRef;
typedef boost::intrusive_ptr<const Interface> InterfaceConstRef;
void intrusive_ptr_release(const Interface* p);
void intrusive_ptr_add_ref(const Interface* p);
class VmEntry;
typedef boost::intrusive_ptr<VmEntry> VmEntryRef;
typedef boost::intrusive_ptr<const VmEntry> VmEntryConstRef;
void intrusive_ptr_release(const VmEntry* p);
void intrusive_ptr_add_ref(const VmEntry* p);
class VnEntry;
typedef boost::intrusive_ptr<VnEntry> VnEntryRef;
typedef boost::intrusive_ptr<const VnEntry> VnEntryConstRef;
void intrusive_ptr_release(const VnEntry* p);
void intrusive_ptr_add_ref(const VnEntry* p);
class SgEntry;
typedef boost::intrusive_ptr<SgEntry> SgEntryRef;
typedef boost::intrusive_ptr<const SgEntry> SgEntryConstRef;
void intrusive_ptr_release(const SgEntry* p);
void intrusive_ptr_add_ref(const SgEntry* p);
class VrfEntry;
typedef boost::intrusive_ptr<VrfEntry> VrfEntryRef;
typedef boost::intrusive_ptr<const VrfEntry> VrfEntryConstRef;
void intrusive_ptr_release(const VrfEntry* p);
void intrusive_ptr_add_ref(const VrfEntry* p);
class MplsLabel;
typedef boost::intrusive_ptr<MplsLabel> MplsLabelRef;
void intrusive_ptr_release(const MplsLabel* p);
void intrusive_ptr_add_ref(const MplsLabel* p);
class MirrorEntry;
typedef boost::intrusive_ptr<MirrorEntry> MirrorEntryRef;
void intrusive_ptr_release(const MirrorEntry* p);
void intrusive_ptr_add_ref(const MirrorEntry* p);
class VxLanId;
typedef boost::intrusive_ptr<VxLanId> VxLanIdRef;
void intrusive_ptr_release(const VxLanId* p);
void intrusive_ptr_add_ref(const VxLanId* p);
class InetUnicastRouteEntry;
class Inet4MulticastRouteEntry;
class EvpnRouteEntry;
class BridgeRouteEntry;
class Route;
typedef boost::intrusive_ptr<Route> RouteRef;
void intrusive_ptr_release(const Route* p);
void intrusive_ptr_add_ref(const Route* p);
class NextHop;
typedef boost::intrusive_ptr<NextHop> NextHopRef;
typedef boost::intrusive_ptr<const NextHop> NextHopConstRef;
void intrusive_ptr_release(const NextHop* p);
void intrusive_ptr_add_ref(const NextHop* p);
class AddrBase;
typedef boost::intrusive_ptr<AddrBase> AddrRef;
void intrusive_ptr_release(const AddrBase* p);
void intrusive_ptr_add_ref(const AddrBase* p);
class AclDBEntry;
typedef boost::intrusive_ptr<AclDBEntry> AclDBEntryRef;
typedef boost::intrusive_ptr<const AclDBEntry> AclDBEntryConstRef;
void intrusive_ptr_release(const AclDBEntry* p);
void intrusive_ptr_add_ref(const AclDBEntry* p);
class PhysicalDevice;
typedef boost::intrusive_ptr<PhysicalDevice> PhysicalDeviceRef;
typedef boost::intrusive_ptr<const PhysicalDevice> PhysicalDeviceConstRef;
void intrusive_ptr_release(const PhysicalDevice *p);
void intrusive_ptr_add_ref(const PhysicalDevice *p);
class PhysicalDeviceVn;
typedef boost::intrusive_ptr<PhysicalDeviceVn> PhysicalDeviceVnRef;
typedef boost::intrusive_ptr<const PhysicalDeviceVn> PhysicalDeviceVnConstRef;
void intrusive_ptr_release(const PhysicalDeviceVn *p);
void intrusive_ptr_add_ref(const PhysicalDeviceVn *p);
//class SecurityGroup;
typedef std::vector<int> SecurityGroupList;
class AgentDBTable;
class InterfaceTable;
class NextHopTable;
class VmTable;
class VnTable;
class SgTable;
class VrfTable;
class MplsTable;
class RouteTable;
class AgentRouteTable;
class InetUnicastAgentRouteTable;
class Inet4MulticastAgentRouteTable;
class EvpnAgentRouteTable;
class BridgeAgentRouteTable;
class CfgIntTable;
class AclTable;
class MirrorTable;
class VrfAssignTable;
class DomainConfig;
class VxLanTable;
class MulticastGroupObject;
class PhysicalDeviceTable;
class PhysicalDeviceVnTable;
class MirrorCfgTable;
class IntfMirrorCfgTable;
class XmppInit;
class AgentXmppChannel;
class AgentIfMapXmppChannel;
class AgentDnsXmppChannel;
class DiscoveryServiceClient;
class EventManager;
class IFMapAgentStaleCleaner;
class CfgListener;
class ArpProto;
class DhcpProto;
class Dhcpv6Proto;
class DnsProto;
class IcmpProto;
class Icmpv6Proto;
class FlowProto;
class Peer;
class LifetimeManager;
class DiagTable;
class VNController;
class AgentSignal;
class ServiceInstanceTable;
class LoadbalancerTable;
class Agent;
class RESTServer;
extern void RouterIdDepInit(Agent *agent);
#define MULTICAST_LABEL_RANGE_START 1024
#define MULTICAST_LABEL_BLOCK_SIZE 2048
#define MIN_UNICAST_LABEL_RANGE 4098
#define MAX_XMPP_SERVERS 2
#define XMPP_SERVER_PORT 5269
#define DISCOVERY_SERVER_PORT 5998
#define METADATA_IP_ADDR ntohl(inet_addr("169.254.169.254"))
#define METADATA_PORT 8775
#define METADATA_NAT_PORT 80
#define AGENT_INIT_TASKNAME "Agent::Init"
#define AGENT_SHUTDOWN_TASKNAME "Agent::Shutdown"
#define IPV4_MULTICAST_BASE_ADDRESS "224.0.0.0"
#define IPV6_MULTICAST_BASE_ADDRESS "ff00::"
#define MULTICAST_BASE_ADDRESS_PLEN 8
#define VROUTER_SERVER_PORT 20914
class Agent {
public:
static const uint32_t kDefaultMaxLinkLocalOpenFds = 2048;
// max open files in the agent, excluding the linklocal bind ports
static const uint32_t kMaxOtherOpenFds = 64;
// default timeout zero means, this timeout is not used
static const uint32_t kDefaultFlowCacheTimeout = 0;
enum ForwardingMode {
NONE,
L2_L3,
L2,
L3
};
enum VxLanNetworkIdentifierMode {
AUTOMATIC,
CONFIGURED
};
enum RouteTableType {
INVALID = 0,
INET4_UNICAST,
INET4_MULTICAST,
EVPN,
BRIDGE,
INET6_UNICAST,
ROUTE_TABLE_MAX
};
Agent();
virtual ~Agent();
void Shutdown() { }
static Agent *GetInstance() {return singleton_;}
static const std::string &NullString() {return null_string_;};
static const MacAddress &vrrp_mac() {return vrrp_mac_;}
static const std::string &BcastMac() {return bcast_mac_;};
static const std::string &xmpp_dns_server_prefix() {
return xmpp_dns_server_connection_name_prefix_;
}
static const std::string &xmpp_control_node_prefix() {
return xmpp_control_node_connection_name_prefix_;
}
const std::string &program_name() const {return prog_name_;}
const std::string &config_file() const {return config_file_;}
const std::string &log_file() const {return log_file_;}
// DB Table accessor methods
InterfaceTable *interface_table() const {return intf_table_;}
void set_interface_table(InterfaceTable *table) {
intf_table_ = table;
}
MirrorCfgTable *mirror_cfg_table() const {return mirror_cfg_table_;}
void set_mirror_cfg_table(MirrorCfgTable *table) {
mirror_cfg_table_ = table;
}
NextHopTable *nexthop_table() const {return nh_table_;}
void set_nexthop_table(NextHopTable *table) {
nh_table_ = table;
}
VrfTable *vrf_table() const { return vrf_table_;}
void set_vrf_table(VrfTable *table) {
vrf_table_ = table;
}
VmTable *vm_table() const { return vm_table_;}
void set_vm_table(VmTable *table) {
vm_table_ = table;
}
VnTable *vn_table() const { return vn_table_;}
void set_vn_table(VnTable *table) {
vn_table_ = table;
}
SgTable *sg_table() const { return sg_table_;}
void set_sg_table(SgTable *table) {
sg_table_ = table;
}
MplsTable *mpls_table() const { return mpls_table_;}
void set_mpls_table(MplsTable *table) {
mpls_table_ = table;
}
AclTable *acl_table() const { return acl_table_;}
void set_acl_table(AclTable *table) {
acl_table_ = table;
}
MirrorTable *mirror_table() const { return mirror_table_;}
void set_mirror_table(MirrorTable *table) {
mirror_table_ = table;
}
VrfAssignTable *vrf_assign_table() const {return vrf_assign_table_;}
void set_vrf_assign_table(VrfAssignTable *table) {
vrf_assign_table_ = table;
}
VxLanTable *vxlan_table() const { return vxlan_table_;}
void set_vxlan_table(VxLanTable *table) {
vxlan_table_ = table;
}
CfgIntTable *interface_config_table() const {return intf_cfg_table_;}
void set_interface_config_table(CfgIntTable *table) {
intf_cfg_table_ = table;
}
DomainConfig *domain_config_table() const;
IntfMirrorCfgTable *interface_mirror_cfg_table() const {
return intf_mirror_cfg_table_;
}
void set_interface_mirror_cfg_table(IntfMirrorCfgTable *table) {
intf_mirror_cfg_table_ = table;
}
InetUnicastAgentRouteTable *fabric_inet4_unicast_table() const {
return uc_rt_table_;
}
void set_fabric_inet4_unicast_table(InetUnicastAgentRouteTable *
table) {
uc_rt_table_ = table;
}
void set_fabric_inet4_unicast_table(RouteTable * table) {
uc_rt_table_ = (InetUnicastAgentRouteTable *)table;
}
Inet4MulticastAgentRouteTable *fabric_inet4_multicast_table() const {
return mc_rt_table_;
}
void set_fabric_inet4_multicast_table
(Inet4MulticastAgentRouteTable *table) {
mc_rt_table_ = table;
}
void set_fabric_inet4_multicast_table(RouteTable *table) {
mc_rt_table_ = (Inet4MulticastAgentRouteTable *)table;
}
EvpnAgentRouteTable *fabric_evpn_table() const {
return evpn_rt_table_;
}
void set_fabric_evpn_table(RouteTable *table) {
evpn_rt_table_ = (EvpnAgentRouteTable *)table;
}
BridgeAgentRouteTable *fabric_l2_unicast_table() const {
return l2_rt_table_;
}
void set_fabric_l2_unicast_table(BridgeAgentRouteTable *table) {
l2_rt_table_ = table;
}
void set_fabric_l2_unicast_table(RouteTable *table) {
l2_rt_table_ = (BridgeAgentRouteTable *)table;
}
PhysicalDeviceTable *physical_device_table() const {
return physical_device_table_;
}
void set_physical_device_table(PhysicalDeviceTable *table) {
physical_device_table_ = table;
}
PhysicalDeviceVnTable *physical_device_vn_table() const {
return physical_device_vn_table_;
}
void set_physical_device_vn_table(PhysicalDeviceVnTable *table) {
physical_device_vn_table_ = table;
}
// VHOST related
uint32_t vhost_prefix_len() const {return prefix_len_;}
void set_vhost_prefix_len(uint32_t plen) {prefix_len_ = plen;}
Ip4Address vhost_default_gateway() const {return gateway_id_;}
void set_vhost_default_gateway(const Ip4Address &addr) {
gateway_id_ = addr;
}
Ip4Address router_id() const {return router_id_;}
const Ip4Address *router_ip_ptr() const {return &router_id_;}
void set_router_id(const Ip4Address &addr) {
router_id_ = addr;
set_router_id_configured(true);
}
bool router_id_configured() { return router_id_configured_; }
void set_router_id_configured(bool value) {
router_id_configured_ = value;
}
Ip4Address compute_node_ip() const {return compute_node_ip_;}
void set_compute_node_ip(const Ip4Address &addr) {
compute_node_ip_ = addr;
}
AgentSignal *agent_signal() const { return agent_signal_.get(); }
// TODO: Should they be moved under controller/dns/cfg?
// Discovery Control-Node Server Response
const std::string &controller_ifmap_discovery_xmpp_server(uint8_t idx) const {
return xs_disc_addr_[idx];
}
void set_controller_ifmap_discovery_xmpp_server(const std::string &addr, uint8_t idx) {
xs_disc_addr_[idx] = addr;
}
const uint32_t controller_ifmap_discovery_xmpp_port(uint8_t idx) const {
return xs_disc_port_[idx];
}
void set_controller_ifmap_discovery_xmpp_port(uint32_t port, uint8_t idx) {
xs_disc_port_[idx] = port;
}
void reset_controller_ifmap_discovery_xmpp_servers() {
uint8_t count = 0;
while (count < MAX_XMPP_SERVERS) {
xs_disc_addr_[count].clear();
xs_disc_port_[count] = 0;
count++;
}
}
// Discovery Dns Server Response
const std::string &dns_discovery_server(uint8_t idx) const {
return dns_disc_addr_[idx];
}
void set_dns_discovery_server(const std::string &addr, uint8_t idx) {
dns_disc_addr_[idx] = addr;
}
const uint32_t dns_discovery_port(uint8_t idx) const {
return dns_disc_port_[idx];
}
void set_dns_discovery_port(uint32_t port, uint8_t idx) {
dns_disc_port_[idx] = port;
}
void reset_dns_discovery_servers() {
uint8_t count = 0;
while (count < MAX_XMPP_SERVERS) {
dns_disc_addr_[count].clear();
dns_disc_port_[count] = 0;
count++;
}
}
// Common XMPP Client for control-node and config clients
const std::string &controller_ifmap_xmpp_server(uint8_t idx) const {
return xs_addr_[idx];
}
void set_controller_ifmap_xmpp_server(const std::string &addr, uint8_t idx) {
xs_addr_[idx] = addr;
}
void reset_controller_ifmap_xmpp_server(uint8_t idx) {
xs_addr_[idx].clear();
xs_port_[idx] = 0;
}
const bool xmpp_auth_enabled(uint8_t idx) const {
return xs_auth_enable_[idx];
}
const std::string &xmpp_server_cert(uint8_t idx) const {
return xs_server_cert_[idx];
}
const uint32_t controller_ifmap_xmpp_port(uint8_t idx) const {
return xs_port_[idx];
}
void set_controller_ifmap_xmpp_port(uint32_t port, uint8_t idx) {
xs_port_[idx] = port;
}
XmppInit *controller_ifmap_xmpp_init(uint8_t idx) const {
return xmpp_init_[idx];
}
void set_controller_ifmap_xmpp_init(XmppInit *init, uint8_t idx) {
xmpp_init_[idx] = init;
}
XmppClient *controller_ifmap_xmpp_client(uint8_t idx) {
return xmpp_client_[idx];
}
void set_controller_ifmap_xmpp_client(XmppClient *client, uint8_t idx) {
xmpp_client_[idx] = client;
}
// Config XMPP server specific
const int8_t &ifmap_active_xmpp_server_index() const {return xs_idx_;}
const std::string &ifmap_active_xmpp_server() const {return xs_cfg_addr_;}
void set_ifmap_active_xmpp_server(const std::string &addr,
uint8_t xs_idx) {
xs_cfg_addr_ = addr;
xs_idx_ = xs_idx;
}
void reset_ifmap_active_xmpp_server() {
xs_cfg_addr_.clear();
xs_idx_ = -1;
}
AgentIfMapXmppChannel *ifmap_xmpp_channel(uint8_t idx) const {
return ifmap_channel_[idx];
}
void set_ifmap_xmpp_channel(AgentIfMapXmppChannel *channel,
uint8_t idx) {
ifmap_channel_[idx] = channel;
}
// Controller XMPP server
const uint64_t controller_xmpp_channel_setup_time(uint8_t idx) const {
return xs_stime_[idx];
}
void set_controller_xmpp_channel_setup_time(uint64_t time, uint8_t idx) {
xs_stime_[idx] = time;
}
AgentXmppChannel *controller_xmpp_channel(uint8_t idx) const {
return agent_xmpp_channel_[idx];
}
void set_controller_xmpp_channel(AgentXmppChannel *channel, uint8_t idx) {
agent_xmpp_channel_[idx] = channel;
};
// Service instance
ServiceInstanceTable *service_instance_table() const {
return service_instance_table_;
}
void set_service_instance_table(ServiceInstanceTable *table) {
service_instance_table_= table;
}
// Loadbalancer-pool
LoadbalancerTable *loadbalancer_table() const {
return loadbalancer_table_;
}
void set_loadbalancer_table(LoadbalancerTable *table) {
loadbalancer_table_ = table;
}
// DNS XMPP Server
const bool dns_auth_enabled(uint8_t idx) const {
return dns_auth_enable_[idx];
}
const std::string &dns_server_cert(uint8_t idx) const {
return dns_server_cert_[idx];
}
XmppInit *dns_xmpp_init(uint8_t idx) const {
return dns_xmpp_init_[idx];
}
void set_dns_xmpp_init(XmppInit *xmpp, uint8_t idx) {
dns_xmpp_init_[idx] = xmpp;
}
XmppClient *dns_xmpp_client(uint8_t idx) const {
return dns_xmpp_client_[idx];
}
void set_dns_xmpp_client(XmppClient *client, uint8_t idx) {
dns_xmpp_client_[idx] = client;
}
AgentDnsXmppChannel *dns_xmpp_channel(uint8_t idx) const {
return dns_xmpp_channel_[idx];
}
void set_dns_xmpp_channel(AgentDnsXmppChannel *chnl, uint8_t idx) {
dns_xmpp_channel_[idx] = chnl;
}
// DNS Server and port
const std::string &dns_server(uint8_t idx) const {return dns_addr_[idx];}
void set_dns_server(const std::string &addr, uint8_t idx) {
dns_addr_[idx] = addr;
}
void reset_dns_server(uint8_t idx) {
dns_addr_[idx].clear();
dns_port_[idx] = 0;
}
const uint32_t dns_server_port(uint8_t idx) const {return dns_port_[idx];}
void set_dns_server_port(uint32_t port, uint8_t idx) {
dns_port_[idx] = port;
}
/* Discovery Server, port, service-instances */
const std::string &discovery_server() const {return dss_addr_;}
const uint32_t discovery_server_port() {
return dss_port_;
}
const int discovery_xmpp_server_instances() const {
return dss_xs_instances_;
}
DiscoveryServiceClient *discovery_service_client() {
return ds_client_;
}
void set_discovery_service_client(DiscoveryServiceClient *client) {
ds_client_ = client;
}
const std::string &discovery_client_name() const {
return discovery_client_name_;
}
void set_discovery_client_name(const std::string &name) {
discovery_client_name_ = name;
}
const std::string &host_name() const {return host_name_; }
const std::string &agent_name() const {
return agent_name_;
}
void set_agent_name(const std::string &name) {
agent_name_ = name;
}
const std::string &instance_id() const { return instance_id_; }
void set_instance_id(const std::string &id) { instance_id_ = id; }
const int &module_type() const { return module_type_; }
void set_module_type(int id) { module_type_ = id; }
const std::string &module_name() const { return module_name_; }
void set_module_name(const std::string &name) { module_name_ = name; }
// Multicast related
const std::string &multicast_label_range(uint8_t idx) {
return label_range_[idx];
}
void SetAgentMcastLabelRange(uint8_t idx);
void ResetAgentMcastLabelRange(uint8_t idx) {
label_range_[idx].clear();
}
AgentXmppChannel* mulitcast_builder() {
return cn_mcast_builder_;
};
void set_cn_mcast_builder(AgentXmppChannel *peer);
// Fabric related
const std::string &fabric_vn_name() const {return fabric_vn_name_; }
const std::string &fabric_vrf_name() const { return fabric_vrf_name_; }
void set_fabric_vrf_name(const std::string &name) {
fabric_vrf_name_ = name;
}
const std::string &linklocal_vn_name() {return link_local_vn_name_;}
const std::string &linklocal_vrf_name() {return link_local_vrf_name_;}
const std::string &vhost_interface_name() const;
void set_vhost_interface_name(const std::string &name) {
vhost_interface_name_ = name;
}
const std::string &pkt_interface_name() const {
return pkt_interface_name_;
}
void set_pkt_interface_name(const std::string &name) {
pkt_interface_name_ = name;
}
const std::string &GetHostInterfaceName() const;
const Interface *vhost_interface() const {
return vhost_interface_;
}
void set_vhost_interface(const Interface *interface) {
vhost_interface_ = interface;
}
process::ConnectionState* connection_state() const {
return connection_state_;
}
void set_connection_state(process::ConnectionState* state) {
connection_state_ = state;
}
uint16_t metadata_server_port() const {return metadata_server_port_;}
void set_metadata_server_port(uint16_t port) {
metadata_server_port_ = port;
}
void set_vrouter_server_ip(Ip4Address ip) {
vrouter_server_ip_ = ip;
}
const Ip4Address vrouter_server_ip() const {
return vrouter_server_ip_;
}
void set_vrouter_server_port(uint32_t port) {
vrouter_server_port_ = port;
}
const uint32_t vrouter_server_port() const {
return vrouter_server_port_;
}
// Protocol objects
ArpProto *GetArpProto() const { return arp_proto_; }
void SetArpProto(ArpProto *proto) { arp_proto_ = proto; }
DhcpProto *GetDhcpProto() const { return dhcp_proto_; }
void SetDhcpProto(DhcpProto *proto) { dhcp_proto_ = proto; }
Dhcpv6Proto *dhcpv6_proto() const { return dhcpv6_proto_; }
void set_dhcpv6_proto(Dhcpv6Proto *proto) { dhcpv6_proto_ = proto; }
DnsProto *GetDnsProto() const { return dns_proto_; }
void SetDnsProto(DnsProto *proto) { dns_proto_ = proto; }
IcmpProto *GetIcmpProto() const { return icmp_proto_; }
void SetIcmpProto(IcmpProto *proto) { icmp_proto_ = proto; }
Icmpv6Proto *icmpv6_proto() const { return icmpv6_proto_; }
void set_icmpv6_proto(Icmpv6Proto *proto) { icmpv6_proto_ = proto; }
FlowProto *GetFlowProto() const { return flow_proto_; }
void SetFlowProto(FlowProto *proto) { flow_proto_ = proto; }
// Peer objects
const Peer *local_peer() const {return local_peer_.get();}
const Peer *local_vm_peer() const {return local_vm_peer_.get();}
const Peer *link_local_peer() const {return linklocal_peer_.get();}
const Peer *ecmp_peer() const {return ecmp_peer_.get();}
const Peer *vgw_peer() const {return vgw_peer_.get();}
const Peer *evpn_peer() const {return evpn_peer_.get();}
const Peer *multicast_peer() const {return multicast_peer_.get();}
const Peer *multicast_tor_peer() const {return multicast_tor_peer_.get();}
const Peer *multicast_tree_builder_peer() const {
return multicast_tree_builder_peer_.get();}
const Peer *mac_vm_binding_peer() const {return mac_vm_binding_peer_.get();}
// Agent Modules
AgentConfig *cfg() const;
void set_cfg(AgentConfig *cfg);
CfgListener *cfg_listener() const;
AgentStats *stats() const;
void set_stats(AgentStats *stats);
KSync *ksync() const;
void set_ksync(KSync *ksync);
AgentUveBase *uve() const;
void set_uve(AgentUveBase *uve);
AgentStatsCollector *stats_collector() const;
void set_stats_collector(AgentStatsCollector *asc);
FlowStatsCollector *flow_stats_collector() const;
void set_flow_stats_collector(FlowStatsCollector *fsc);
PktModule *pkt() const;
void set_pkt(PktModule *pkt);
ServicesModule *services() const;
void set_services(ServicesModule *services);
DiscoveryAgentClient *discovery_client() const;
void set_discovery_client(DiscoveryAgentClient *client);
VirtualGateway *vgw() const;
void set_vgw(VirtualGateway *vgw);
RESTServer *rest_server() const;
void set_rest_server(RESTServer *r);
OperDB *oper_db() const;
void set_oper_db(OperDB *oper_db);
VNController *controller() const;
void set_controller(VNController *val);
// Miscellaneous
EventManager *event_manager() const {return event_mgr_;}
void set_event_manager(EventManager *evm) {
event_mgr_ = evm;
}
DiagTable *diag_table() const;
void set_diag_table(DiagTable *table);
uint16_t mirror_port() const {return mirror_src_udp_port_;}
void set_mirror_port(uint16_t mirr_port) {
mirror_src_udp_port_ = mirr_port;
}
int introspect_port() const { return introspect_port_;}
DB *db() const {return db_;}
TaskScheduler *task_scheduler() const { return task_scheduler_; }
void set_task_scheduler(TaskScheduler *t) { task_scheduler_ = t; }
AgentInit *agent_init() const { return agent_init_; }
void set_agent_init(AgentInit *init) { agent_init_ = init; }
OVSDB::OvsdbClient *ovsdb_client() const { return ovsdb_client_; }
void set_ovsdb_client(OVSDB::OvsdbClient *client) { ovsdb_client_ = client; }
const std::string &fabric_interface_name() const {
return ip_fabric_intf_name_;
}
bool debug() { return debug_; }
void set_debug(bool debug) { debug_ = debug; }
VxLanNetworkIdentifierMode vxlan_network_identifier_mode() const {
return vxlan_network_identifier_mode_;
}
void set_vxlan_network_identifier_mode(VxLanNetworkIdentifierMode mode) {
vxlan_network_identifier_mode_ = mode;
}
bool headless_agent_mode() const {return headless_agent_mode_;}
void set_headless_agent_mode(bool mode) {headless_agent_mode_ = mode;}
bool simulate_evpn_tor() const {return simulate_evpn_tor_;}
void set_simulate_evpn_tor(bool mode) {simulate_evpn_tor_ = mode;}
bool tsn_enabled() const {return tsn_enabled_;}
void set_tsn_enabled(bool val) {tsn_enabled_ = val;}
bool tor_agent_enabled() const {return tor_agent_enabled_;}
void set_tor_agent_enabled(bool val) {tor_agent_enabled_ = val;}
IFMapAgentParser *ifmap_parser() const {return ifmap_parser_;}
void set_ifmap_parser(IFMapAgentParser *parser) {
ifmap_parser_ = parser;
}
IFMapAgentStaleCleaner *ifmap_stale_cleaner() const {
return agent_stale_cleaner_;
}
void set_ifmap_stale_cleaner(IFMapAgentStaleCleaner *cl) {
agent_stale_cleaner_ = cl;
}
std::string GetUuidStr(boost::uuids::uuid uuid_val) const;
bool ksync_sync_mode() const {return ksync_sync_mode_;}
void set_ksync_sync_mode(bool sync_mode) {
ksync_sync_mode_ = sync_mode;
}
bool test_mode() const { return test_mode_; }
void set_test_mode(bool test_mode) { test_mode_ = test_mode; }
uint32_t flow_table_size() const { return flow_table_size_; }
void set_flow_table_size(uint32_t count) { flow_table_size_ = count; }
bool init_done() const { return init_done_; }
void set_init_done(bool done) { init_done_ = done; }
ConfigManager *config_manager() const;
AgentParam *params() const { return params_; }
bool isXenMode();
bool isKvmMode();
bool isDockerMode();
// Agent param accessor functions
bool isVmwareMode() const;
bool isVmwareVcenterMode() const;
bool vrouter_on_nic_mode() const;
bool vrouter_on_host_dpdk() const;
bool vrouter_on_host() const;
void SetAgentTaskPolicy();
void CopyConfig(AgentParam *params);
const std::string BuildDiscoveryClientName(std::string mod_name,
std::string id);
void Init(AgentParam *param);
void InitPeers();
void InitDone();
void InitXenLinkLocalIntf();
void InitCollector();
LifetimeManager *lifetime_manager() { return lifetime_manager_;}
void CreateLifetimeManager();
void ShutdownLifetimeManager();
// Default concurrency checker. Checks for "Agent::KSync" and "db::DBTable"
void ConcurrencyCheck();
uint32_t vrouter_max_labels() const {
return vrouter_max_labels_;
}
void set_vrouter_max_labels(uint32_t max_labels) {
vrouter_max_labels_ = max_labels;
}
uint32_t vrouter_max_nexthops() const {
return vrouter_max_nexthops_;
}
void set_vrouter_max_nexthops(uint32_t max_nexthop) {
vrouter_max_nexthops_ = max_nexthop;
}
uint32_t vrouter_max_interfaces() const {
return vrouter_max_interfaces_;
}
void set_vrouter_max_interfaces(uint32_t max_interfaces) {
vrouter_max_interfaces_ = max_interfaces;
}
uint32_t vrouter_max_vrfs() const {
return vrouter_max_vrfs_;
}
void set_vrouter_max_vrfs(uint32_t max_vrf) {
vrouter_max_vrfs_ = max_vrf;
}
uint32_t vrouter_max_mirror_entries() const {
return vrouter_max_mirror_entries_;
}
void set_vrouter_max_mirror_entries(uint32_t max_mirror_entries) {
vrouter_max_mirror_entries_ = max_mirror_entries;
}
uint32_t vrouter_max_bridge_entries() const {
return vrouter_max_bridge_entries_;
}
void set_vrouter_max_bridge_entries(uint32_t bridge_entries) {
vrouter_max_bridge_entries_ = bridge_entries;
}
uint32_t vrouter_max_oflow_bridge_entries() const {
return vrouter_max_oflow_bridge_entries_;
}
void set_vrouter_max_oflow_bridge_entries(uint32_t
oflow_bridge_entries) {
vrouter_max_oflow_bridge_entries_ = oflow_bridge_entries;
}
void set_vrouter_build_info(std::string version) {
vrouter_build_info_ = version;
}
std::string vrouter_build_info() const {
return vrouter_build_info_;
}
Agent::ForwardingMode TranslateForwardingMode(const std::string &mode) const;
private:
AgentParam *params_;
AgentConfig *cfg_;
AgentStats *stats_;
KSync *ksync_;
AgentUveBase *uve_;
AgentStatsCollector *stats_collector_;
FlowStatsCollector *flow_stats_collector_;
PktModule *pkt_;
ServicesModule *services_;
VirtualGateway *vgw_;
RESTServer *rest_server_;
OperDB *oper_db_;
DiagTable *diag_table_;
VNController *controller_;
EventManager *event_mgr_;
AgentXmppChannel *agent_xmpp_channel_[MAX_XMPP_SERVERS];
AgentIfMapXmppChannel *ifmap_channel_[MAX_XMPP_SERVERS];
XmppClient *xmpp_client_[MAX_XMPP_SERVERS];
XmppInit *xmpp_init_[MAX_XMPP_SERVERS];
AgentDnsXmppChannel *dns_xmpp_channel_[MAX_XMPP_SERVERS];
XmppClient *dns_xmpp_client_[MAX_XMPP_SERVERS];
XmppInit *dns_xmpp_init_[MAX_XMPP_SERVERS];
IFMapAgentStaleCleaner *agent_stale_cleaner_;
AgentXmppChannel *cn_mcast_builder_;
DiscoveryServiceClient *ds_client_;
uint16_t metadata_server_port_;
// Host name of node running the daemon
std::string host_name_;
// Unique name of the agent. When multiple instances are running, it will
// use instance-id to make unique name
std::string agent_name_;
std::string prog_name_;
int introspect_port_;
std::string instance_id_;
int module_type_;
std::string module_name_;
// DB handles
DB *db_;
TaskScheduler *task_scheduler_;
AgentInit *agent_init_;
InterfaceTable *intf_table_;
NextHopTable *nh_table_;
InetUnicastAgentRouteTable *uc_rt_table_;
Inet4MulticastAgentRouteTable *mc_rt_table_;
EvpnAgentRouteTable *evpn_rt_table_;
BridgeAgentRouteTable *l2_rt_table_;
VrfTable *vrf_table_;
VmTable *vm_table_;
VnTable *vn_table_;
SgTable *sg_table_;
MplsTable *mpls_table_;