// The /v1/operator/area endpoints are available only in Consul Enterprise and
// interact with its network area subsystem. Network areas are used to link
// together Consul servers in different Consul datacenters. With network areas,
// Consul datacenters can be linked together in ways other than a fully-connected
// mesh, as is required for Consul's WAN.
package api
import (
"net"
"time"
)
// Area defines a network area.
type Area struct {
// ID is this identifier for an area (a UUID). This must be left empty
// when creating a new area.
ID string
// PeerDatacenter is the peer Consul datacenter that will make up the
// other side of this network area. Network areas always involve a pair
// of datacenters: the datacenter where the area was created, and the
// peer datacenter. This is required.
PeerDatacenter string
// RetryJoin specifies the address of Consul servers to join to, such as
// an IPs or hostnames with an optional port number. This is optional.
RetryJoin [ ] string
// UseTLS specifies whether gossip over this area should be encrypted with TLS
// if possible.
UseTLS bool
}
// AreaJoinResponse is returned when a join occurs and gives the result for each
// address.
type AreaJoinResponse struct {
// The address that was joined.
Address string
// Whether or not the join was a success.
Joined bool
// If we couldn't join, this is the message with information.
Error string
}
// SerfMember is a generic structure for reporting information about members in
// a Serf cluster. This is only used by the area endpoints right now, but this
// could be expanded to other endpoints in the future.
type SerfMember struct {
// ID is the node identifier (a UUID).
ID string
// Name is the node name.
Name string
// Addr has the IP address.
Addr net . IP
// Port is the RPC port.
Port uint16
// Datacenter is the DC name.
Datacenter string
// Role is "client", "server", or "unknown".
Role string
// Build has the version of the Consul agent.
Build string
// Protocol is the protocol of the Consul agent.
Protocol int
// Status is the Serf health status "none", "alive", "leaving", "left",
// or "failed".
Status string
// RTT is the estimated round trip time from the server handling the
// request to the this member. This will be negative if no RTT estimate
// is available.
RTT time . Duration
}
// AreaCreate will create a new network area. The ID in the given structure must
// be empty and a generated ID will be returned on success.
func ( op * Operator ) AreaCreate ( area * Area , q * WriteOptions ) ( string , * WriteMeta , error ) {
r := op . c . newRequest ( "POST" , "/v1/operator/area" )
r . setWriteOptions ( q )
r . obj = area
rtt , resp , err := requireOK ( op . c . doRequest ( r ) )
if err != nil {
return "" , nil , err
}
defer resp . Body . Close ( )
wm := & WriteMeta { }
wm . RequestTime = rtt
var out struct { ID string }
if err := decodeBody ( resp , & out ) ; err != nil {
return "" , nil , err
}
return out . ID , wm , nil
}
// AreaUpdate will update the configuration of the network area with the given ID.
func ( op * Operator ) AreaUpdate ( areaID string , area * Area , q * WriteOptions ) ( string , * WriteMeta , error ) {
r := op . c . newRequest ( "PUT" , "/v1/operator/area/" + areaID )
r . setWriteOptions ( q )
r . obj = area
rtt , resp , err := requireOK ( op . c . doRequest ( r ) )
if err != nil {
return "" , nil , err
}
defer resp . Body . Close ( )
wm := & WriteMeta { }
wm . RequestTime = rtt
var out struct { ID string }
if err := decodeBody ( resp , & out ) ; err != nil {
return "" , nil , err
}
return out . ID , wm , nil
}
// AreaGet returns a single network area.
func ( op * Operator ) AreaGet ( areaID string , q * QueryOptions ) ( [ ] * Area , * QueryMeta , error ) {
var out [ ] * Area
qm , err := op . c . query ( "/v1/operator/area/" + areaID , & out , q )
if err != nil {
return nil , nil , err
}
return out , qm , nil
}
// AreaList returns all the available network areas.
func ( op * Operator ) AreaList ( q * QueryOptions ) ( [ ] * Area , * QueryMeta , error ) {
var out [ ] * Area
qm , err := op . c . query ( "/v1/operator/area" , & out , q )
if err != nil {
return nil , nil , err
}
return out , qm , nil
}
// AreaDelete deletes the given network area.
func ( op * Operator ) AreaDelete ( areaID string , q * WriteOptions ) ( * WriteMeta , error ) {
r := op . c . newRequest ( "DELETE" , "/v1/operator/area/" + areaID )
r . setWriteOptions ( q )
rtt , resp , err := requireOK ( op . c . doRequest ( r ) )
if err != nil {
return nil , err
}
defer resp . Body . Close ( )
wm := & WriteMeta { }
wm . RequestTime = rtt
return wm , nil
}
// AreaJoin attempts to join the given set of join addresses to the given
// network area. See the Area structure for details about join addresses.
func ( op * Operator ) AreaJoin ( areaID string , addresses [ ] string , q * WriteOptions ) ( [ ] * AreaJoinResponse , * WriteMeta , error ) {
r := op . c . newRequest ( "PUT" , "/v1/operator/area/" + areaID + "/join" )
r . setWriteOptions ( q )
r . obj = addresses
rtt , resp , err := requireOK ( op . c . doRequest ( r ) )
if err != nil {
return nil , nil , err
}
defer resp . Body . Close ( )
wm := & WriteMeta { }
wm . RequestTime = rtt
var out [ ] * AreaJoinResponse
if err := decodeBody ( resp , & out ) ; err != nil {
return nil , nil , err
}
return out , wm , nil
}
// AreaMembers lists the Serf information about the members in the given area.
func ( op * Operator ) AreaMembers ( areaID string , q * QueryOptions ) ( [ ] * SerfMember , * QueryMeta , error ) {
var out [ ] * SerfMember
qm , err := op . c . query ( "/v1/operator/area/" + areaID + "/members" , & out , q )
if err != nil {
return nil , nil , err
}
return out , qm , nil
}