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consul/api/peering.go

283 lines
8.1 KiB

package api
import (
"context"
"fmt"
"time"
)
// PeeringState enumerates all the states a peering can be in
type PeeringState string
const (
// PeeringStateUndefined represents an unset value for PeeringState during
// writes.
PeeringStateUndefined PeeringState = "UNDEFINED"
// PeeringStatePending means the peering was created by generating a peering token.
// Peerings stay in a pending state until the peer uses the token to dial
// the local cluster.
PeeringStatePending PeeringState = "PENDING"
// PeeringStateEstablishing means the peering is being established from a peering token.
// This is the initial state for dialing peers.
PeeringStateEstablishing PeeringState = "ESTABLISHING"
// PeeringStateActive means that the peering connection is active and
// healthy.
PeeringStateActive PeeringState = "ACTIVE"
// PeeringStateFailing means the peering connection has been interrupted
// but has not yet been terminated.
PeeringStateFailing PeeringState = "FAILING"
// PeeringStateDeleting means a peering was marked for deletion and is in the process
// of being deleted.
PeeringStateDeleting PeeringState = "DELETING"
// PeeringStateTerminated means the peering relationship has been removed.
PeeringStateTerminated PeeringState = "TERMINATED"
)
type PeeringRemoteInfo struct {
// Partition is the remote peer's partition.
Partition string
// Datacenter is the remote peer's datacenter.
Datacenter string
}
type Peering struct {
// ID is a datacenter-scoped UUID for the peering.
ID string
// Name is the local alias for the peering relationship.
Name string
// Partition is the local partition connecting to the peer.
Partition string `json:",omitempty"`
// DeletedAt is the time when the Peering was marked for deletion
DeletedAt *time.Time `json:",omitempty" alias:"deleted_at"`
// Meta is a mapping of some string value to any other string value
Meta map[string]string `json:",omitempty"`
// State is one of the valid PeeringState values to represent the status of
// peering relationship.
State PeeringState
// PeerID is the ID that our peer assigned to this peering. This ID is to
// be used when dialing the peer, so that it can know who dialed it.
PeerID string `json:",omitempty"`
// PeerCAPems contains all the CA certificates for the remote peer.
PeerCAPems []string `json:",omitempty"`
// PeerServerName is the name of the remote server as it relates to TLS.
PeerServerName string `json:",omitempty"`
// PeerServerAddresses contains all the connection addresses for the remote peer.
PeerServerAddresses []string `json:",omitempty"`
// StreamStatus contains information computed on read based on the state of the stream.
StreamStatus PeeringStreamStatus
// CreateIndex is the Raft index at which the Peering was created.
CreateIndex uint64
// ModifyIndex is the latest Raft index at which the Peering was modified.
ModifyIndex uint64
// Remote contains metadata for the remote peer.
Remote PeeringRemoteInfo
}
type PeeringStreamStatus struct {
// ImportedServices is the list of services imported from this peering.
ImportedServices []string
// ExportedServices is the list of services exported to this peering.
ExportedServices []string
// LastHeartbeat represents when the last heartbeat message was received.
LastHeartbeat *time.Time
// LastReceive represents when any message was last received, regardless of success or error.
LastReceive *time.Time
// LastSend represents when any message was last sent, regardless of success or error.
LastSend *time.Time
}
type PeeringReadResponse struct {
Peering *Peering
}
type PeeringGenerateTokenRequest struct {
// PeerName is the name of the remote peer.
PeerName string
// Partition to be peered.
Partition string `json:",omitempty"`
// Meta is a mapping of some string value to any other string value
Meta map[string]string `json:",omitempty"`
// ServerExternalAddresses is a list of addresses to put into the generated token. This could be used to specify
// load balancer(s) or external IPs to reach the servers from the dialing side, and will override any server
// addresses obtained from the "consul" service.
ServerExternalAddresses []string `json:",omitempty"`
}
type PeeringGenerateTokenResponse struct {
// PeeringToken is an opaque string provided to the remote peer for it to complete
// the peering initialization handshake.
PeeringToken string
}
type PeeringEstablishRequest struct {
// Name of the remote peer.
PeerName string
// The peering token returned from the peer's GenerateToken endpoint.
PeeringToken string `json:",omitempty"`
// Partition to be peered.
Partition string `json:",omitempty"`
// Meta is a mapping of some string value to any other string value
Meta map[string]string `json:",omitempty"`
}
type PeeringEstablishResponse struct {
}
type PeeringListRequest struct {
// future proofing in case we extend List functionality
}
type Peerings struct {
c *Client
}
// Peerings returns a handle to the operator endpoints.
func (c *Client) Peerings() *Peerings {
return &Peerings{c: c}
}
func (p *Peerings) Read(ctx context.Context, name string, q *QueryOptions) (*Peering, *QueryMeta, error) {
if name == "" {
return nil, nil, fmt.Errorf("peering name cannot be empty")
}
req := p.c.newRequest("GET", fmt.Sprintf("/v1/peering/%s", name))
req.setQueryOptions(q)
req.ctx = ctx
rtt, resp, err := p.c.doRequest(req)
if err != nil {
return nil, nil, err
}
defer closeResponseBody(resp)
found, resp, err := requireNotFoundOrOK(resp)
if err != nil {
return nil, nil, err
}
qm := &QueryMeta{}
parseQueryMeta(resp, qm)
qm.RequestTime = rtt
if !found {
return nil, qm, nil
}
var out Peering
if err := decodeBody(resp, &out); err != nil {
return nil, nil, err
}
return &out, qm, nil
}
func (p *Peerings) Delete(ctx context.Context, name string, q *WriteOptions) (*WriteMeta, error) {
if name == "" {
return nil, fmt.Errorf("peering name cannot be empty")
}
req := p.c.newRequest("DELETE", fmt.Sprintf("/v1/peering/%s", name))
req.setWriteOptions(q)
req.ctx = ctx
rtt, resp, err := p.c.doRequest(req)
if err != nil {
return nil, err
}
defer closeResponseBody(resp)
if err := requireOK(resp); err != nil {
return nil, err
}
wm := &WriteMeta{RequestTime: rtt}
return wm, nil
}
// TODO(peering): verify this is the ultimate signature we want
func (p *Peerings) GenerateToken(ctx context.Context, g PeeringGenerateTokenRequest, wq *WriteOptions) (*PeeringGenerateTokenResponse, *WriteMeta, error) {
if g.PeerName == "" {
return nil, nil, fmt.Errorf("peer name cannot be empty")
}
req := p.c.newRequest("POST", fmt.Sprint("/v1/peering/token"))
req.setWriteOptions(wq)
req.ctx = ctx
req.obj = g
rtt, resp, err := p.c.doRequest(req)
if err != nil {
return nil, nil, err
}
defer closeResponseBody(resp)
if err := requireOK(resp); err != nil {
return nil, nil, err
}
wm := &WriteMeta{RequestTime: rtt}
var out PeeringGenerateTokenResponse
if err := decodeBody(resp, &out); err != nil {
return nil, nil, err
}
return &out, wm, nil
}
// TODO(peering): verify this is the ultimate signature we want
func (p *Peerings) Establish(ctx context.Context, i PeeringEstablishRequest, wq *WriteOptions) (*PeeringEstablishResponse, *WriteMeta, error) {
req := p.c.newRequest("POST", fmt.Sprint("/v1/peering/establish"))
req.setWriteOptions(wq)
req.ctx = ctx
req.obj = i
rtt, resp, err := p.c.doRequest(req)
if err != nil {
return nil, nil, err
}
defer closeResponseBody(resp)
if err := requireOK(resp); err != nil {
return nil, nil, err
}
wm := &WriteMeta{RequestTime: rtt}
var out PeeringEstablishResponse
if err := decodeBody(resp, &out); err != nil {
return nil, nil, err
}
return &out, wm, nil
}
func (p *Peerings) List(ctx context.Context, q *QueryOptions) ([]*Peering, *QueryMeta, error) {
req := p.c.newRequest("GET", "/v1/peerings")
req.setQueryOptions(q)
req.ctx = ctx
rtt, resp, err := p.c.doRequest(req)
if err != nil {
return nil, nil, err
}
defer closeResponseBody(resp)
if err := requireOK(resp); err != nil {
return nil, nil, err
}
qm := &QueryMeta{}
parseQueryMeta(resp, qm)
qm.RequestTime = rtt
var out []*Peering
if err := decodeBody(resp, &out); err != nil {
return nil, nil, err
}
return out, qm, nil
}