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|
// SPDX-License-Identifier: GPL-2.0-or-later
/* Zebra's client header.
* Copyright (C) 1999 Kunihiro Ishiguro
*/
#ifndef _ZEBRA_ZCLIENT_H
#define _ZEBRA_ZCLIENT_H
struct zclient;
/* For struct zapi_route. */
#include "prefix.h"
#include "ipaddr.h"
/* For struct interface and struct connected. */
#include "if.h"
/* For vrf_bitmap_t. */
#include "vrf.h"
/* For union g_addr */
#include "nexthop.h"
/* For resilience */
#include "nexthop_group.h"
/* For union pw_protocol_fields */
#include "pw.h"
#include "mlag.h"
#include "srte.h"
#include "srv6.h"
#ifdef __cplusplus
extern "C" {
#endif
/* Zebra types. Used in Zserv message header. */
typedef uint16_t zebra_size_t;
/* Marker value used in new Zserv, in the byte location corresponding
* the command value in the old zserv header. To allow old and new
* Zserv headers to be distinguished from each other.
*/
#define ZEBRA_HEADER_MARKER 254
/* For input/output buffer to zebra. */
#define ZEBRA_MAX_PACKET_SIZ 16384U
#define ZEBRA_SMALL_PACKET_SIZE 200U
/* Zebra header size. */
#define ZEBRA_HEADER_SIZE 10
/* special socket path name to use TCP
* @ is used as first character because that's abstract socket names on Linux
*/
#define ZAPI_TCP_PATHNAME "@tcp"
/* IPset size name stands for the name of the ipset entry
* that can be created by using some zapi interfaces
*/
#define ZEBRA_IPSET_NAME_SIZE 32
/* IPTable action is defined by two values: either
* forward or drop
*/
#define ZEBRA_IPTABLES_FORWARD 0
#define ZEBRA_IPTABLES_DROP 1
/* Zebra FEC register command flags. */
#define ZEBRA_FEC_REGISTER_LABEL 0x1
#define ZEBRA_FEC_REGISTER_LABEL_INDEX 0x2
/* Client capabilities */
enum zserv_client_capabilities {
ZEBRA_CLIENT_GR_CAPABILITIES = 1,
ZEBRA_CLIENT_ROUTE_UPDATE_COMPLETE = 2,
ZEBRA_CLIENT_ROUTE_UPDATE_PENDING = 3,
ZEBRA_CLIENT_GR_DISABLE = 4,
ZEBRA_CLIENT_RIB_STALE_TIME
};
/* Macro to check if there GR enabled. */
#define ZEBRA_CLIENT_GR_ENABLED(X) (X == ZEBRA_CLIENT_GR_CAPABILITIES)
#define ZEBRA_SR_POLICY_NAME_MAX_LENGTH 100
extern struct sockaddr_storage zclient_addr;
extern socklen_t zclient_addr_len;
/* Zebra message types. Please update the corresponding
* command_types array with any changes!
*/
typedef enum {
ZEBRA_INTERFACE_ADD,
ZEBRA_INTERFACE_DELETE,
ZEBRA_INTERFACE_ADDRESS_ADD,
ZEBRA_INTERFACE_ADDRESS_DELETE,
ZEBRA_INTERFACE_UP,
ZEBRA_INTERFACE_DOWN,
ZEBRA_INTERFACE_SET_MASTER,
ZEBRA_INTERFACE_SET_PROTODOWN,
ZEBRA_ROUTE_ADD,
ZEBRA_ROUTE_DELETE,
ZEBRA_ROUTE_NOTIFY_OWNER,
ZEBRA_REDISTRIBUTE_ADD,
ZEBRA_REDISTRIBUTE_DELETE,
ZEBRA_REDISTRIBUTE_DEFAULT_ADD,
ZEBRA_REDISTRIBUTE_DEFAULT_DELETE,
ZEBRA_ROUTER_ID_ADD,
ZEBRA_ROUTER_ID_DELETE,
ZEBRA_ROUTER_ID_UPDATE,
ZEBRA_HELLO,
ZEBRA_CAPABILITIES,
ZEBRA_NEXTHOP_REGISTER,
ZEBRA_NEXTHOP_UNREGISTER,
ZEBRA_NEXTHOP_UPDATE,
ZEBRA_INTERFACE_NBR_ADDRESS_ADD,
ZEBRA_INTERFACE_NBR_ADDRESS_DELETE,
ZEBRA_INTERFACE_BFD_DEST_UPDATE,
ZEBRA_BFD_DEST_REGISTER,
ZEBRA_BFD_DEST_DEREGISTER,
ZEBRA_BFD_DEST_UPDATE,
ZEBRA_BFD_DEST_REPLAY,
ZEBRA_REDISTRIBUTE_ROUTE_ADD,
ZEBRA_REDISTRIBUTE_ROUTE_DEL,
ZEBRA_VRF_UNREGISTER,
ZEBRA_VRF_ADD,
ZEBRA_VRF_DELETE,
ZEBRA_VRF_LABEL,
ZEBRA_BFD_CLIENT_REGISTER,
ZEBRA_BFD_CLIENT_DEREGISTER,
ZEBRA_INTERFACE_ENABLE_RADV,
ZEBRA_INTERFACE_DISABLE_RADV,
ZEBRA_NEXTHOP_LOOKUP_MRIB,
ZEBRA_INTERFACE_LINK_PARAMS,
ZEBRA_MPLS_LABELS_ADD,
ZEBRA_MPLS_LABELS_DELETE,
ZEBRA_MPLS_LABELS_REPLACE,
ZEBRA_SR_POLICY_SET,
ZEBRA_SR_POLICY_DELETE,
ZEBRA_SR_POLICY_NOTIFY_STATUS,
ZEBRA_IPMR_ROUTE_STATS,
ZEBRA_LABEL_MANAGER_CONNECT,
ZEBRA_LABEL_MANAGER_CONNECT_ASYNC,
ZEBRA_GET_LABEL_CHUNK,
ZEBRA_RELEASE_LABEL_CHUNK,
ZEBRA_FEC_REGISTER,
ZEBRA_FEC_UNREGISTER,
ZEBRA_FEC_UPDATE,
ZEBRA_ADVERTISE_DEFAULT_GW,
ZEBRA_ADVERTISE_SVI_MACIP,
ZEBRA_ADVERTISE_SUBNET,
ZEBRA_ADVERTISE_ALL_VNI,
ZEBRA_LOCAL_ES_ADD,
ZEBRA_LOCAL_ES_DEL,
ZEBRA_REMOTE_ES_VTEP_ADD,
ZEBRA_REMOTE_ES_VTEP_DEL,
ZEBRA_LOCAL_ES_EVI_ADD,
ZEBRA_LOCAL_ES_EVI_DEL,
ZEBRA_VNI_ADD,
ZEBRA_VNI_DEL,
ZEBRA_L3VNI_ADD,
ZEBRA_L3VNI_DEL,
ZEBRA_REMOTE_VTEP_ADD,
ZEBRA_REMOTE_VTEP_DEL,
ZEBRA_MACIP_ADD,
ZEBRA_MACIP_DEL,
ZEBRA_IP_PREFIX_ROUTE_ADD,
ZEBRA_IP_PREFIX_ROUTE_DEL,
ZEBRA_REMOTE_MACIP_ADD,
ZEBRA_REMOTE_MACIP_DEL,
ZEBRA_DUPLICATE_ADDR_DETECTION,
ZEBRA_PW_ADD,
ZEBRA_PW_DELETE,
ZEBRA_PW_SET,
ZEBRA_PW_UNSET,
ZEBRA_PW_STATUS_UPDATE,
ZEBRA_RULE_ADD,
ZEBRA_RULE_DELETE,
ZEBRA_RULE_NOTIFY_OWNER,
ZEBRA_TABLE_MANAGER_CONNECT,
ZEBRA_GET_TABLE_CHUNK,
ZEBRA_RELEASE_TABLE_CHUNK,
ZEBRA_IPSET_CREATE,
ZEBRA_IPSET_DESTROY,
ZEBRA_IPSET_ENTRY_ADD,
ZEBRA_IPSET_ENTRY_DELETE,
ZEBRA_IPSET_NOTIFY_OWNER,
ZEBRA_IPSET_ENTRY_NOTIFY_OWNER,
ZEBRA_IPTABLE_ADD,
ZEBRA_IPTABLE_DELETE,
ZEBRA_IPTABLE_NOTIFY_OWNER,
ZEBRA_VXLAN_FLOOD_CONTROL,
ZEBRA_VXLAN_SG_ADD,
ZEBRA_VXLAN_SG_DEL,
ZEBRA_VXLAN_SG_REPLAY,
ZEBRA_MLAG_PROCESS_UP,
ZEBRA_MLAG_PROCESS_DOWN,
ZEBRA_MLAG_CLIENT_REGISTER,
ZEBRA_MLAG_CLIENT_UNREGISTER,
ZEBRA_MLAG_FORWARD_MSG,
ZEBRA_NHG_ADD,
ZEBRA_NHG_DEL,
ZEBRA_NHG_NOTIFY_OWNER,
ZEBRA_EVPN_REMOTE_NH_ADD,
ZEBRA_EVPN_REMOTE_NH_DEL,
ZEBRA_SRV6_LOCATOR_ADD,
ZEBRA_SRV6_LOCATOR_DELETE,
ZEBRA_SRV6_MANAGER_GET_LOCATOR_CHUNK,
ZEBRA_SRV6_MANAGER_RELEASE_LOCATOR_CHUNK,
ZEBRA_ERROR,
ZEBRA_CLIENT_CAPABILITIES,
ZEBRA_OPAQUE_MESSAGE,
ZEBRA_OPAQUE_REGISTER,
ZEBRA_OPAQUE_UNREGISTER,
ZEBRA_NEIGH_DISCOVER,
ZEBRA_ROUTE_NOTIFY_REQUEST,
ZEBRA_CLIENT_CLOSE_NOTIFY,
ZEBRA_NHRP_NEIGH_ADDED,
ZEBRA_NHRP_NEIGH_REMOVED,
ZEBRA_NHRP_NEIGH_GET,
ZEBRA_NHRP_NEIGH_REGISTER,
ZEBRA_NHRP_NEIGH_UNREGISTER,
ZEBRA_NEIGH_IP_ADD,
ZEBRA_NEIGH_IP_DEL,
ZEBRA_CONFIGURE_ARP,
ZEBRA_GRE_GET,
ZEBRA_GRE_UPDATE,
ZEBRA_GRE_SOURCE_SET,
ZEBRA_TC_QDISC_INSTALL,
ZEBRA_TC_QDISC_UNINSTALL,
ZEBRA_TC_CLASS_ADD,
ZEBRA_TC_CLASS_DELETE,
ZEBRA_TC_FILTER_ADD,
ZEBRA_TC_FILTER_DELETE,
ZEBRA_OPAQUE_NOTIFY,
} zebra_message_types_t;
/* Zebra message types. Please update the corresponding
* command_types array with any changes!
*/
enum zebra_error_types {
ZEBRA_UNKNOWN_ERROR, /* Error of unknown type */
ZEBRA_NO_VRF, /* Vrf in header was not found */
ZEBRA_INVALID_MSG_TYPE, /* No handler found for msg type */
};
static inline const char *zebra_error_type2str(enum zebra_error_types type)
{
const char *ret = "UNKNOWN";
switch (type) {
case ZEBRA_UNKNOWN_ERROR:
ret = "ZEBRA_UNKNOWN_ERROR";
break;
case ZEBRA_NO_VRF:
ret = "ZEBRA_NO_VRF";
break;
case ZEBRA_INVALID_MSG_TYPE:
ret = "ZEBRA_INVALID_MSG_TYPE";
break;
}
return ret;
}
struct redist_proto {
uint8_t enabled;
struct list *instances;
};
struct zclient_capabilities {
uint32_t ecmp;
bool mpls_enabled;
enum mlag_role role;
bool v6_with_v4_nexthop;
};
/* Graceful Restart Capabilities message */
struct zapi_cap {
enum zserv_client_capabilities cap;
uint32_t stale_removal_time;
afi_t afi;
safi_t safi;
vrf_id_t vrf_id;
};
/* clang-format off */
#define ZAPI_CALLBACK_ARGS \
int cmd, struct zclient *zclient, uint16_t length, vrf_id_t vrf_id
/* function-type typedef (pointer not included) */
typedef int (zclient_handler)(ZAPI_CALLBACK_ARGS);
/* clang-format on */
/* Structure for the zebra client. */
struct zclient {
/* The thread master we schedule ourselves on */
struct event_loop *master;
/* Privileges to change socket values */
struct zebra_privs_t *privs;
/* Do we care about failure events for route install? */
bool receive_notify;
/* Is this a synchronous client? */
bool synchronous;
/* BFD enabled with bfd_protocol_integration_init() */
bool bfd_integration;
/* Session id (optional) to support clients with multiple sessions */
uint32_t session_id;
/* Socket to zebra daemon. */
int sock;
/* Connection failure count. */
int fail;
/* Input buffer for zebra message. */
struct stream *ibuf;
/* Output buffer for zebra message. */
struct stream *obuf;
/* Buffer of data waiting to be written to zebra. */
struct buffer *wb;
/* Read and connect thread. */
struct event *t_read;
struct event *t_connect;
/* Thread to write buffered data to zebra. */
struct event *t_write;
/* Redistribute information. */
uint8_t redist_default; /* clients protocol */
unsigned short instance;
struct redist_proto mi_redist[AFI_MAX][ZEBRA_ROUTE_MAX];
vrf_bitmap_t redist[AFI_MAX][ZEBRA_ROUTE_MAX];
/* Redistribute default. */
vrf_bitmap_t default_information[AFI_MAX];
/* Pointer to the callback functions. */
void (*zebra_connected)(struct zclient *);
void (*zebra_capabilities)(struct zclient_capabilities *cap);
int (*handle_error)(enum zebra_error_types error);
/*
* When the zclient attempts to write the stream data to
* it's named pipe to/from zebra, we may have a situation
* where the other daemon has not fully drained the data
* from the socket. In this case provide a mechanism
* where we will *still* buffer the data to be sent
* and also provide a callback mechanism to the appropriate
* place where we can signal that we're ready to receive
* more data.
*/
void (*zebra_buffer_write_ready)(void);
zclient_handler *const *handlers;
size_t n_handlers;
};
/* lib handlers added in bfd.c */
extern int zclient_bfd_session_replay(ZAPI_CALLBACK_ARGS);
extern int zclient_bfd_session_update(ZAPI_CALLBACK_ARGS);
/* Zebra API message flag. */
#define ZAPI_MESSAGE_NEXTHOP 0x01
#define ZAPI_MESSAGE_DISTANCE 0x02
#define ZAPI_MESSAGE_METRIC 0x04
#define ZAPI_MESSAGE_TAG 0x08
#define ZAPI_MESSAGE_MTU 0x10
#define ZAPI_MESSAGE_SRCPFX 0x20
/* Backup nexthops are present */
#define ZAPI_MESSAGE_BACKUP_NEXTHOPS 0x40
#define ZAPI_MESSAGE_NHG 0x80
/*
* This should only be used by a DAEMON that needs to communicate
* the table being used is not in the VRF. You must pass the
* default vrf, else this will be ignored.
*/
#define ZAPI_MESSAGE_TABLEID 0x0100
#define ZAPI_MESSAGE_SRTE 0x0200
#define ZAPI_MESSAGE_OPAQUE 0x0400
#define ZSERV_VERSION 6
/* Zserv protocol message header */
struct zmsghdr {
uint16_t length;
/* Always set to 255 in new zserv */
uint8_t marker;
uint8_t version;
vrf_id_t vrf_id;
uint16_t command;
} __attribute__((packed));
#define ZAPI_HEADER_CMD_LOCATION offsetof(struct zmsghdr, command)
/*
* ZAPI nexthop. Note that these are sorted when associated with ZAPI routes,
* and that sorting must be aligned with the sorting of nexthops in
* lib/nexthop.c. Any new fields must be accounted for in zapi_nexthop_cmp().
*/
struct zapi_nexthop {
enum nexthop_types_t type;
vrf_id_t vrf_id;
ifindex_t ifindex;
uint8_t flags;
union {
union g_addr gate;
enum blackhole_type bh_type;
};
/* MPLS labels for BGP-LU or Segment Routing */
uint8_t label_num;
enum lsp_types_t label_type;
mpls_label_t labels[MPLS_MAX_LABELS];
struct ethaddr rmac;
uint32_t weight;
/* Backup nexthops, for IP-FRR, TI-LFA, etc */
uint8_t backup_num;
uint8_t backup_idx[NEXTHOP_MAX_BACKUPS];
/* SR-TE color. */
uint32_t srte_color;
/* SRv6 localsid info for Endpoint-behaviour */
uint32_t seg6local_action;
struct seg6local_context seg6local_ctx;
/* SRv6 Headend-behaviour */
int seg_num;
struct in6_addr seg6_segs[SRV6_MAX_SEGS];
};
/*
* ZAPI nexthop flags values - we're encoding a single octet
* initially, so ensure that the on-the-wire encoding continues
* to match the number of valid flags.
*/
#define ZAPI_NEXTHOP_FLAG_ONLINK 0x01
#define ZAPI_NEXTHOP_FLAG_LABEL 0x02
#define ZAPI_NEXTHOP_FLAG_WEIGHT 0x04
#define ZAPI_NEXTHOP_FLAG_HAS_BACKUP 0x08 /* Nexthop has a backup */
#define ZAPI_NEXTHOP_FLAG_SEG6 0x10
#define ZAPI_NEXTHOP_FLAG_SEG6LOCAL 0x20
#define ZAPI_NEXTHOP_FLAG_EVPN 0x40
/*
* ZAPI Nexthop Group. For use with protocol creation of nexthop groups.
*/
struct zapi_nhg {
uint16_t proto;
uint32_t id;
struct nhg_resilience resilience;
uint16_t nexthop_num;
struct zapi_nexthop nexthops[MULTIPATH_NUM];
uint16_t backup_nexthop_num;
struct zapi_nexthop backup_nexthops[MULTIPATH_NUM];
};
/*
* Some of these data structures do not map easily to
* a actual data structure size giving different compilers
* and systems. For those data structures we need
* to use the smallest available stream_getX/putX functions
* to encode/decode.
*/
struct zapi_route {
uint8_t type;
unsigned short instance;
/* If you add flags, update zclient_dump_route_flags */
uint32_t flags;
/*
* Cause Zebra to consider this routes nexthops recursively
*/
#define ZEBRA_FLAG_ALLOW_RECURSION 0x01
/*
* This is a route that is read in on startup that was left around
* from a previous run of FRR
*/
#define ZEBRA_FLAG_SELFROUTE 0x02
/*
* This flag is used to tell Zebra that the BGP route being passed
* down is a IBGP route
*/
#define ZEBRA_FLAG_IBGP 0x04
/*
* This is a route that has been selected for FIB installation.
* This flag is set in zebra and can be passed up to routing daemons
*/
#define ZEBRA_FLAG_SELECTED 0x08
/*
* This is a route that we are telling Zebra that this route *must*
* win and will be installed even over ZEBRA_FLAG_SELECTED
*/
#define ZEBRA_FLAG_FIB_OVERRIDE 0x10
/*
* This flag tells Zebra that the route is a EVPN route and should
* be treated specially
*/
#define ZEBRA_FLAG_EVPN_ROUTE 0x20
/*
* This flag tells Zebra that it should treat the distance passed
* down as an additional discriminator for route selection of the
* route entry. This mainly is used for backup static routes.
*/
#define ZEBRA_FLAG_RR_USE_DISTANCE 0x40
/*
* This flag tells everyone that the route was intentionally
* not offloaded and the route will be sent to the cpu for
* forwarding. This flag makes no sense unless you are in
* an asic offload situation
*/
#define ZEBRA_FLAG_TRAPPED 0x80
/*
* This flag tells everyone that the route has been
* successfully offloaded to an asic for forwarding.
* This flag makes no sense unless you are in an asic
* offload situation.
*/
#define ZEBRA_FLAG_OFFLOADED 0x100
/*
* This flag tells everyone that the route has
* failed offloading.
* This flag makes no sense unless you are in an asic
* offload situation.
*/
#define ZEBRA_FLAG_OFFLOAD_FAILED 0x200
/*
* This flag lets us know that we think the route entry
* received has caused us to be out of sync with the
* kernel (NLM_F_APPEND at the very least )
*/
#define ZEBRA_FLAG_OUTOFSYNC 0x400
/* The older XXX_MESSAGE flags live here */
uint32_t message;
/*
* This is an enum but we are going to treat it as a uint8_t
* for purpose of encoding/decoding
*/
safi_t safi;
struct prefix prefix;
struct prefix_ipv6 src_prefix;
uint16_t nexthop_num;
struct zapi_nexthop nexthops[MULTIPATH_NUM];
/* Support backup routes for IP FRR, TI-LFA, traffic engineering */
uint16_t backup_nexthop_num;
struct zapi_nexthop backup_nexthops[MULTIPATH_NUM];
uint32_t nhgid;
uint8_t distance;
uint32_t metric;
route_tag_t tag;
uint32_t mtu;
vrf_id_t vrf_id;
uint32_t tableid;
/* SR-TE color (used for nexthop updates only). */
uint32_t srte_color;
#define ZAPI_MESSAGE_OPAQUE_LENGTH 1024
struct {
uint16_t length;
uint8_t data[ZAPI_MESSAGE_OPAQUE_LENGTH];
} opaque;
};
extern char *zclient_dump_route_flags(uint32_t flags, char *buf, size_t len);
struct zapi_labels {
uint8_t message;
#define ZAPI_LABELS_FTN 0x01
#define ZAPI_LABELS_HAS_BACKUPS 0x02
enum lsp_types_t type;
mpls_label_t local_label;
struct {
struct prefix prefix;
uint8_t type;
unsigned short instance;
} route;
uint16_t nexthop_num;
struct zapi_nexthop nexthops[MULTIPATH_NUM];
/* Backup nexthops, if present */
uint16_t backup_nexthop_num;
struct zapi_nexthop backup_nexthops[MULTIPATH_NUM];
};
struct zapi_srte_tunnel {
enum lsp_types_t type;
mpls_label_t local_label;
uint8_t label_num;
mpls_label_t labels[MPLS_MAX_LABELS];
};
struct zapi_sr_policy {
uint32_t color;
struct ipaddr endpoint;
char name[SRTE_POLICY_NAME_MAX_LENGTH];
struct zapi_srte_tunnel segment_list;
int status;
};
struct zapi_pw {
char ifname[INTERFACE_NAMSIZ];
ifindex_t ifindex;
int type;
int af;
union g_addr nexthop;
uint32_t local_label;
uint32_t remote_label;
uint8_t flags;
union pw_protocol_fields data;
uint8_t protocol;
};
struct zapi_pw_status {
char ifname[INTERFACE_NAMSIZ];
ifindex_t ifindex;
uint32_t status;
};
/* IGP instance data associated to a RLFA. */
struct zapi_rlfa_igp {
vrf_id_t vrf_id;
int protocol;
union {
struct {
char area_tag[32];
struct {
int tree_id;
int level;
unsigned int run_id;
} spf;
} isis;
};
};
/* IGP -> LDP RLFA (un)registration message. */
struct zapi_rlfa_request {
/* IGP instance data. */
struct zapi_rlfa_igp igp;
/* Destination prefix. */
struct prefix destination;
/* PQ node address. */
struct in_addr pq_address;
};
/* LDP -> IGP RLFA label update. */
struct zapi_rlfa_response {
/* IGP instance data. */
struct zapi_rlfa_igp igp;
/* Destination prefix. */
struct prefix destination;
/* Resolved LDP labels. */
mpls_label_t pq_label;
uint16_t nexthop_num;
struct {
int family;
union g_addr gate;
mpls_label_t label;
} nexthops[MULTIPATH_NUM];
};
enum zapi_route_notify_owner {
ZAPI_ROUTE_FAIL_INSTALL,
ZAPI_ROUTE_BETTER_ADMIN_WON,
ZAPI_ROUTE_INSTALLED,
ZAPI_ROUTE_REMOVED,
ZAPI_ROUTE_REMOVE_FAIL,
};
enum zapi_nhg_notify_owner {
ZAPI_NHG_FAIL_INSTALL,
ZAPI_NHG_INSTALLED,
ZAPI_NHG_REMOVED,
ZAPI_NHG_REMOVE_FAIL,
};
enum zapi_rule_notify_owner {
ZAPI_RULE_FAIL_INSTALL,
ZAPI_RULE_INSTALLED,
ZAPI_RULE_REMOVED,
ZAPI_RULE_FAIL_REMOVE,
};
enum ipset_type {
IPSET_NET_NET = 1,
IPSET_NET_PORT_NET,
IPSET_NET_PORT,
IPSET_NET
};
enum zapi_ipset_notify_owner {
ZAPI_IPSET_FAIL_INSTALL = 0,
ZAPI_IPSET_INSTALLED,
ZAPI_IPSET_REMOVED,
ZAPI_IPSET_FAIL_REMOVE,
};
enum zapi_ipset_entry_notify_owner {
ZAPI_IPSET_ENTRY_FAIL_INSTALL = 0,
ZAPI_IPSET_ENTRY_INSTALLED,
ZAPI_IPSET_ENTRY_REMOVED,
ZAPI_IPSET_ENTRY_FAIL_REMOVE,
};
enum zapi_iptable_notify_owner {
ZAPI_IPTABLE_FAIL_INSTALL = 0,
ZAPI_IPTABLE_INSTALLED,
ZAPI_IPTABLE_REMOVED,
ZAPI_IPTABLE_FAIL_REMOVE,
};
enum zclient_send_status {
ZCLIENT_SEND_FAILURE = -1,
ZCLIENT_SEND_SUCCESS = 0,
ZCLIENT_SEND_BUFFERED = 1
};
static inline const char *
zapi_nhg_notify_owner2str(enum zapi_nhg_notify_owner note)
{
const char *ret = "UNKNOWN";
switch (note) {
case ZAPI_NHG_FAIL_INSTALL:
ret = "ZAPI_NHG_FAIL_INSTALL";
break;
case ZAPI_NHG_INSTALLED:
ret = "ZAPI_NHG_INSTALLED";
break;
case ZAPI_NHG_REMOVE_FAIL:
ret = "ZAPI_NHG_REMOVE_FAIL";
break;
case ZAPI_NHG_REMOVED:
ret = "ZAPI_NHG_REMOVED";
break;
}
return ret;
}
static inline const char *
zapi_rule_notify_owner2str(enum zapi_rule_notify_owner note)
{
const char *ret = "UNKNOWN";
switch (note) {
case ZAPI_RULE_FAIL_INSTALL:
ret = "ZAPI_RULE_FAIL_INSTALL";
break;
case ZAPI_RULE_INSTALLED:
ret = "ZAPI_RULE_INSTALLED";
break;
case ZAPI_RULE_FAIL_REMOVE:
ret = "ZAPI_RULE_FAIL_REMOVE";
break;
case ZAPI_RULE_REMOVED:
ret = "ZAPI_RULE_REMOVED";
break;
}
return ret;
}
/* Zebra MAC types */
#define ZEBRA_MACIP_TYPE_STICKY 0x01 /* Sticky MAC*/
#define ZEBRA_MACIP_TYPE_GW 0x02 /* gateway (SVI) mac*/
#define ZEBRA_MACIP_TYPE_ROUTER_FLAG 0x04 /* Router Flag - proxy NA */
#define ZEBRA_MACIP_TYPE_OVERRIDE_FLAG 0x08 /* Override Flag */
#define ZEBRA_MACIP_TYPE_SVI_IP 0x10 /* SVI MAC-IP */
#define ZEBRA_MACIP_TYPE_PROXY_ADVERT 0x20 /* Not locally active */
#define ZEBRA_MACIP_TYPE_SYNC_PATH 0x40 /* sync path */
/* XXX - flags is an u8; that needs to be changed to u32 if you need
* to allocate past 0x80. Additionally touch zclient_evpn_dump_macip_flags
*/
#define MACIP_BUF_SIZE 128
extern char *zclient_evpn_dump_macip_flags(uint8_t flags, char *buf,
size_t len);
/* Zebra ES VTEP flags (ZEBRA_REMOTE_ES_VTEP_ADD) */
/* ESR has been rxed from the VTEP. Only VTEPs that have advertised the
* Type-4 route can participate in DF election.
*/
#define ZAPI_ES_VTEP_FLAG_ESR_RXED (1 << 0)
enum zebra_neigh_state { ZEBRA_NEIGH_INACTIVE = 0, ZEBRA_NEIGH_ACTIVE = 1 };
struct zclient_options {
bool receive_notify;
bool synchronous;
};
extern struct zclient_options zclient_options_default;
/* link layer representation for GRE like interfaces
* ip_in is the underlay IP, ip_out is the tunnel dest
* index stands for the index of the interface
* ndm state stands for the NDM value in netlink
* (see linux/neighbour.h)
*/
#define ZEBRA_NEIGH_STATE_INCOMPLETE (0x01)
#define ZEBRA_NEIGH_STATE_REACHABLE (0x02)
#define ZEBRA_NEIGH_STATE_STALE (0x04)
#define ZEBRA_NEIGH_STATE_DELAY (0x08)
#define ZEBRA_NEIGH_STATE_PROBE (0x10)
#define ZEBRA_NEIGH_STATE_FAILED (0x20)
#define ZEBRA_NEIGH_STATE_NOARP (0x40)
#define ZEBRA_NEIGH_STATE_PERMANENT (0x80)
#define ZEBRA_NEIGH_STATE_NONE (0x00)
struct zapi_neigh_ip {
int cmd;
struct ipaddr ip_in;
struct ipaddr ip_out;
ifindex_t index;
uint32_t ndm_state;
};
int zclient_neigh_ip_decode(struct stream *s, struct zapi_neigh_ip *api);
int zclient_neigh_ip_encode(struct stream *s, uint16_t cmd, union sockunion *in,
union sockunion *out, struct interface *ifp,
int ndm_state);
/*
* We reserve the top 4 bits for l2-NHG, everything else
* is for zebra/proto l3-NHG.
*
* Each client is going to get it's own nexthop group space
* and we'll separate them, we'll figure out where to start based upon
* the route_types.h
*/
#define ZEBRA_NHG_PROTO_UPPER \
((uint32_t)250000000) /* Bottom 28 bits then rounded down */
#define ZEBRA_NHG_PROTO_SPACING (ZEBRA_NHG_PROTO_UPPER / ZEBRA_ROUTE_MAX)
#define ZEBRA_NHG_PROTO_LOWER \
(ZEBRA_NHG_PROTO_SPACING * (ZEBRA_ROUTE_CONNECT + 1))
extern uint32_t zclient_get_nhg_start(uint32_t proto);
extern struct zclient *zclient_new(struct event_loop *m,
struct zclient_options *opt,
zclient_handler *const *handlers,
size_t n_handlers);
extern void zclient_init(struct zclient *, int, unsigned short,
struct zebra_privs_t *privs);
extern int zclient_start(struct zclient *);
extern void zclient_stop(struct zclient *);
extern void zclient_reset(struct zclient *);
extern void zclient_free(struct zclient *);
extern int zclient_socket_connect(struct zclient *);
extern unsigned short *redist_check_instance(struct redist_proto *,
unsigned short);
extern void redist_add_instance(struct redist_proto *, unsigned short);
extern void redist_del_instance(struct redist_proto *, unsigned short);
extern void redist_del_all_instances(struct redist_proto *red);
/*
* Send to zebra that the specified vrf is using label to resolve
* itself for L3VPN's. Repeated calls of this function with
* different labels will cause an effective update of the
* label for lookup. If you pass in MPLS_LABEL_NONE
* we will cause a delete action and remove this label pop
* operation.
*
* The underlying AF_MPLS doesn't care about afi's
* but we can make the zebra_vrf keep track of what
* we have installed and play some special games
* to get them both installed.
*/
extern enum zclient_send_status
zclient_send_vrf_label(struct zclient *zclient, vrf_id_t vrf_id, afi_t afi,
mpls_label_t label, enum lsp_types_t ltype);
extern enum zclient_send_status
zclient_send_localsid(struct zclient *zclient, const struct in6_addr *sid,
vrf_id_t vrf_id, enum seg6local_action_t action,
const struct seg6local_context *context);
extern void zclient_send_reg_requests(struct zclient *, vrf_id_t);
extern void zclient_send_dereg_requests(struct zclient *, vrf_id_t);
extern enum zclient_send_status
zclient_send_router_id_update(struct zclient *zclient,
zebra_message_types_t type, afi_t afi,
vrf_id_t vrf_id);
extern enum zclient_send_status
zclient_send_interface_radv_req(struct zclient *zclient, vrf_id_t vrf_id,
struct interface *ifp, int enable,
uint32_t ra_interval);
extern enum zclient_send_status
zclient_send_interface_protodown(struct zclient *zclient, vrf_id_t vrf_id,
struct interface *ifp, bool down);
/* Send redistribute command to zebra daemon. Do not update zclient state. */
extern enum zclient_send_status
zebra_redistribute_send(int command, struct zclient *, afi_t, int type,
unsigned short instance, vrf_id_t vrf_id);
extern enum zclient_send_status
zebra_redistribute_default_send(int command, struct zclient *zclient, afi_t afi,
vrf_id_t vrf_id);
/* Send route notify request to zebra */
extern int zebra_route_notify_send(int command, struct zclient *zclient,
bool set);
/* If state has changed, update state and call zebra_redistribute_send. */
extern void zclient_redistribute(int command, struct zclient *, afi_t, int type,
unsigned short instance, vrf_id_t vrf_id);
/* If state has changed, update state and send the command to zebra. */
extern void zclient_redistribute_default(int command, struct zclient *,
afi_t, vrf_id_t vrf_id);
/*
* Send the message in zclient->obuf to the zebra daemon (or enqueue it).
* Returns:
* -1 on a I/O error
* 0 data was successfully sent
* 1 data was buffered for future usage
*/
extern enum zclient_send_status zclient_send_message(struct zclient *);
/* create header for command, length to be filled in by user later */
extern void zclient_create_header(struct stream *, uint16_t, vrf_id_t);
/*
* Read sizeof(struct zmsghdr) bytes from the provided socket and parse the
* received data into the specified fields. If this is successful, read the
* rest of the packet into the provided stream.
*
* s
* The stream to read into
*
* sock
* The socket to read from
*
* size
* Parsed message size will be placed in the pointed-at integer
*
* marker
* Parsed marker will be placed in the pointed-at byte
*
* version
* Parsed version will be placed in the pointed-at byte
*
* vrf_id
* Parsed VRF ID will be placed in the pointed-at vrf_id_t
*
* cmd
* Parsed command number will be placed in the pointed-at integer
*
* Returns:
* -1 if:
* - insufficient data for header was read
* - a version mismatch was detected
* - a marker mismatch was detected
* - header size field specified more data than could be read
*/
extern int zclient_read_header(struct stream *s, int sock, uint16_t *size,
uint8_t *marker, uint8_t *version,
vrf_id_t *vrf_id, uint16_t *cmd);
/*
* Parse header from ZAPI message stream into struct zmsghdr.
* This function assumes the stream getp points at the first byte of the header.
* If the function is successful then the stream getp will point to the byte
* immediately after the last byte of the header.
*
* zmsg
* The stream containing the header
*
* hdr
* The header struct to parse into.
*
* Returns:
* true if parsing succeeded, false otherwise
*/
extern bool zapi_parse_header(struct stream *zmsg, struct zmsghdr *hdr);
extern enum zclient_send_status
zclient_interface_set_master(struct zclient *client, struct interface *master,
struct interface *slave);
extern struct interface *zebra_interface_state_read(struct stream *s, vrf_id_t);
extern struct connected *zebra_interface_address_read(int, struct stream *,
vrf_id_t);
extern struct nbr_connected *
zebra_interface_nbr_address_read(int, struct stream *, vrf_id_t);
extern struct interface *zebra_interface_vrf_update_read(struct stream *s,
vrf_id_t vrf_id,
vrf_id_t *new_vrf_id);
extern int zebra_router_id_update_read(struct stream *s, struct prefix *rid);
extern struct interface *zebra_interface_link_params_read(struct stream *s,
vrf_id_t vrf_id,
bool *changed);
extern size_t zebra_interface_link_params_write(struct stream *,
struct interface *);
extern enum zclient_send_status
zclient_send_get_label_chunk(struct zclient *zclient, uint8_t keep,
uint32_t chunk_size, uint32_t base);
extern int lm_label_manager_connect(struct zclient *zclient, int async);
extern int lm_get_label_chunk(struct zclient *zclient, uint8_t keep,
uint32_t base, uint32_t chunk_size,
uint32_t *start, uint32_t *end);
extern int lm_release_label_chunk(struct zclient *zclient, uint32_t start,
uint32_t end);
extern int tm_table_manager_connect(struct zclient *zclient);
extern int tm_get_table_chunk(struct zclient *zclient, uint32_t chunk_size,
uint32_t *start, uint32_t *end);
extern int tm_release_table_chunk(struct zclient *zclient, uint32_t start,
uint32_t end);
extern int srv6_manager_get_locator_chunk(struct zclient *zclient,
const char *locator_name);
extern int srv6_manager_release_locator_chunk(struct zclient *zclient,
const char *locator_name);
extern enum zclient_send_status zebra_send_sr_policy(struct zclient *zclient,
int cmd,
struct zapi_sr_policy *zp);
extern int zapi_sr_policy_encode(struct stream *s, int cmd,
struct zapi_sr_policy *zp);
extern int zapi_sr_policy_decode(struct stream *s, struct zapi_sr_policy *zp);
extern int zapi_sr_policy_notify_status_decode(struct stream *s,
struct zapi_sr_policy *zp);
extern enum zclient_send_status zebra_send_mpls_labels(struct zclient *zclient,
int cmd,
struct zapi_labels *zl);
extern int zapi_labels_encode(struct stream *s, int cmd,
struct zapi_labels *zl);
extern int zapi_labels_decode(struct stream *s, struct zapi_labels *zl);
extern int zapi_srv6_locator_encode(struct stream *s,
const struct srv6_locator *l);
extern int zapi_srv6_locator_decode(struct stream *s, struct srv6_locator *l);
extern int zapi_srv6_locator_chunk_encode(struct stream *s,
const struct srv6_locator_chunk *c);
extern int zapi_srv6_locator_chunk_decode(struct stream *s,
struct srv6_locator_chunk *c);
extern enum zclient_send_status zebra_send_pw(struct zclient *zclient,
int command, struct zapi_pw *pw);
extern int zebra_read_pw_status_update(ZAPI_CALLBACK_ARGS,
struct zapi_pw_status *pw);
extern enum zclient_send_status zclient_route_send(uint8_t, struct zclient *,
struct zapi_route *);
extern enum zclient_send_status
zclient_send_rnh(struct zclient *zclient, int command, const struct prefix *p,
safi_t safi, bool connected, bool resolve_via_default,
vrf_id_t vrf_id);
int zapi_nexthop_encode(struct stream *s, const struct zapi_nexthop *api_nh,
uint32_t api_flags, uint32_t api_message);
extern int zapi_route_encode(uint8_t, struct stream *, struct zapi_route *);
extern int zapi_route_decode(struct stream *s, struct zapi_route *api);
extern int zapi_nexthop_decode(struct stream *s, struct zapi_nexthop *api_nh,
uint32_t api_flags, uint32_t api_message);
bool zapi_nhg_notify_decode(struct stream *s, uint32_t *id,
enum zapi_nhg_notify_owner *note);
bool zapi_route_notify_decode(struct stream *s, struct prefix *p,
uint32_t *tableid,
enum zapi_route_notify_owner *note,
afi_t *afi, safi_t *safi);
bool zapi_rule_notify_decode(struct stream *s, uint32_t *seqno,
uint32_t *priority, uint32_t *unique, char *ifname,
enum zapi_rule_notify_owner *note);
bool zapi_ipset_notify_decode(struct stream *s,
uint32_t *unique,
enum zapi_ipset_notify_owner *note);
/* Nexthop-group message apis */
extern enum zclient_send_status
zclient_nhg_send(struct zclient *zclient, int cmd, struct zapi_nhg *api_nhg);
#define ZEBRA_IPSET_NAME_SIZE 32
bool zapi_ipset_entry_notify_decode(struct stream *s,
uint32_t *unique,
char *ipset_name,
enum zapi_ipset_entry_notify_owner *note);
bool zapi_iptable_notify_decode(struct stream *s,
uint32_t *unique,
enum zapi_iptable_notify_owner *note);
extern struct nexthop *
nexthop_from_zapi_nexthop(const struct zapi_nexthop *znh);
int zapi_nexthop_from_nexthop(struct zapi_nexthop *znh,
const struct nexthop *nh);
int zapi_backup_nexthop_from_nexthop(struct zapi_nexthop *znh,
const struct nexthop *nh);
/*
* match -> is the prefix that the calling daemon asked to be matched
* against.
* nhr->prefix -> is the actual prefix that was matched against in the
* rib itself.
*
* This distinction is made because a LPM can be made if there is a
* covering route. This way the upper level protocol can make a decision
* point about whether or not it wants to use the match or not.
*/
extern bool zapi_nexthop_update_decode(struct stream *s, struct prefix *match,
struct zapi_route *nhr);
const char *zapi_nexthop2str(const struct zapi_nexthop *znh, char *buf,
int bufsize);
/* Decode the zebra error message */
extern bool zapi_error_decode(struct stream *s, enum zebra_error_types *error);
/* Encode and decode restart capabilities */
extern enum zclient_send_status
zclient_capabilities_send(uint32_t cmd, struct zclient *zclient,
struct zapi_cap *api);
extern int32_t zapi_capabilities_decode(struct stream *s, struct zapi_cap *api);
static inline void zapi_route_set_blackhole(struct zapi_route *api,
enum blackhole_type bh_type)
{
api->nexthop_num = 1;
api->nexthops[0].type = NEXTHOP_TYPE_BLACKHOLE;
api->nexthops[0].vrf_id = VRF_DEFAULT;
api->nexthops[0].bh_type = bh_type;
SET_FLAG(api->message, ZAPI_MESSAGE_NEXTHOP);
};
extern enum zclient_send_status
zclient_send_mlag_register(struct zclient *client, uint32_t bit_map);
extern enum zclient_send_status
zclient_send_mlag_deregister(struct zclient *client);
extern enum zclient_send_status zclient_send_mlag_data(struct zclient *client,
struct stream *client_s);
/*
* Send an OPAQUE message, contents opaque to zebra - but note that
* the length of the payload is restricted by the zclient's
* outgoing message buffer.
* The message header is a message subtype; please use the registry
* below to avoid sub-type collisions. Clients use the registration
* apis to manage the specific opaque subtypes they want to receive.
*/
enum zclient_send_status zclient_send_opaque(struct zclient *zclient,
uint32_t type, const uint8_t *data,
size_t datasize);
enum zclient_send_status
zclient_send_opaque_unicast(struct zclient *zclient, uint32_t type,
uint8_t proto, uint16_t instance,
uint32_t session_id, const uint8_t *data,
size_t datasize);
/* Init functions also provided for clients who want to encode their
* data inline into the zclient's stream buffer. Please use these instead
* of hand-encoding the header info, since that may change over time.
* Note that these will reset the zclient's outbound stream before encoding.
*/
enum zclient_send_status zapi_opaque_init(struct zclient *zclient,
uint32_t type, uint16_t flags);
enum zclient_send_status
zapi_opaque_unicast_init(struct zclient *zclient, uint32_t type, uint16_t flags,
uint8_t proto, uint16_t instance, uint32_t session_id);
/* Struct representing the decoded opaque header info */
struct zapi_opaque_msg {
uint32_t type; /* Subtype */
uint16_t len; /* len after zapi header and this info */
uint16_t flags;
/* Sending client info */
uint8_t src_proto;
uint16_t src_instance;
uint32_t src_session_id;
/* Destination client info - *if* UNICAST flag is set */
uint8_t dest_proto;
uint16_t dest_instance;
uint32_t dest_session_id;
};
#define ZAPI_OPAQUE_FLAG_UNICAST 0x01
/* Simple struct to convey registration/unreg requests */
struct zapi_opaque_reg_info {
/* Message subtype */
uint32_t type;
/* Client session tuple */
uint8_t proto;
uint16_t instance;
uint32_t session_id;
};
/* Simple struct conveying information about opaque notifications.
* Daemons can request notifications about the status of registration for
* opaque message types. For example, a client daemon can request notification
* when a server registers to receive a certain message code. Or a server can
* request notification when a subscriber registers for its output.
*/
struct zapi_opaque_notif_info {
bool request; /* Request to register, or notification from zebra */
bool reg; /* Register or unregister */
uint32_t msg_type; /* Target message code */
/* For notif registration, zapi info for the client.
* For notifications, zapi info for the message's server/registrant.
* For notification that there is no server/registrant, not present.
*/
uint8_t proto;
uint16_t instance;
uint32_t session_id;
};
/* The same ZAPI message is used for daemon->zebra requests, and for
* zebra->daemon notifications.
* Daemons send 'request' true, and 'reg' true or false.
* Zebra sends 'request' false, 'reg' set if the notification is a
* server/receiver registration for the message type, and false if the event
* is the end of registrations.
*/
/* Decode incoming opaque */
int zclient_opaque_decode(struct stream *msg, struct zapi_opaque_msg *info);
enum zclient_send_status zclient_register_opaque(struct zclient *zclient,
uint32_t type);
enum zclient_send_status zclient_unregister_opaque(struct zclient *zclient,
uint32_t type);
int zapi_opaque_reg_decode(struct stream *msg,
struct zapi_opaque_reg_info *info);
/* Opaque notification features */
enum zclient_send_status zclient_opaque_request_notify(struct zclient *zclient,
uint32_t msgtype);
enum zclient_send_status zclient_opaque_drop_notify(struct zclient *zclient,
uint32_t msgtype);
/* Encode, decode an incoming zapi opaque notification */
int zclient_opaque_notif_encode(struct stream *s, uint32_t msg_type,
bool reg /* register or unreg*/, uint8_t proto,
uint16_t instance, uint32_t session_id);
int zclient_opaque_notif_decode(struct stream *s,
struct zapi_opaque_notif_info *info);
/*
* Registry of opaque message types. Please do not reuse an in-use
* type code; some daemons are likely relying on it.
*/
enum zapi_opaque_registry {
/* Request link-state database dump, at restart for example */
LINK_STATE_SYNC = 1,
/* Update containing link-state db info */
LINK_STATE_UPDATE = 2,
/* Request LDP-SYNC state from LDP */
LDP_IGP_SYNC_IF_STATE_REQUEST = 3,
/* Update containing LDP IGP Sync State info */
LDP_IGP_SYNC_IF_STATE_UPDATE = 4,
/* Announce that LDP is up */
LDP_IGP_SYNC_ANNOUNCE_UPDATE = 5,
/* Register RLFA with LDP */
LDP_RLFA_REGISTER = 7,
/* Unregister all RLFAs with LDP */
LDP_RLFA_UNREGISTER_ALL = 8,
/* Announce LDP labels associated to a previously registered RLFA */
LDP_RLFA_LABELS = 9,
};
/* Send the hello message.
* Returns 0 for success or -1 on an I/O error.
*/
extern enum zclient_send_status zclient_send_hello(struct zclient *client);
extern enum zclient_send_status
zclient_send_neigh_discovery_req(struct zclient *zclient,
const struct interface *ifp,
const struct prefix *p);
struct zapi_client_close_info {
/* Client session tuple */
uint8_t proto;
uint16_t instance;
uint32_t session_id;
};
/* Decode incoming client close notify */
extern int zapi_client_close_notify_decode(struct stream *s,
struct zapi_client_close_info *info);
extern int zclient_send_zebra_gre_request(struct zclient *client,
struct interface *ifp);
#ifdef __cplusplus
}
#endif
#endif /* _ZEBRA_ZCLIENT_H */
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