package api
import (
"encoding/json"
"fmt"
"strings"
"time"
)
const (
// HealthAny is special, and is used as a wild card,
// not as a specific state.
HealthAny = "any"
HealthPassing = "passing"
HealthWarning = "warning"
HealthCritical = "critical"
HealthMaint = "maintenance"
)
const (
serviceHealth = "service"
connectHealth = "connect"
ingressHealth = "ingress"
)
const (
// NodeMaint is the special key set by a node in maintenance mode.
NodeMaint = "_node_maintenance"
// ServiceMaintPrefix is the prefix for a service in maintenance mode.
ServiceMaintPrefix = "_service_maintenance:"
)
// HealthCheck is used to represent a single check
type HealthCheck struct {
Node string
CheckID string
Name string
Status string
Notes string
Output string
ServiceID string
ServiceName string
ServiceTags [ ] string
Type string
Namespace string ` json:",omitempty" `
Partition string ` json:",omitempty" `
ExposedPort int
PeerName string ` json:",omitempty" `
Definition HealthCheckDefinition
CreateIndex uint64
ModifyIndex uint64
}
// HealthCheckDefinition is used to store the details about
// a health check's execution.
type HealthCheckDefinition struct {
HTTP string
Header map [ string ] [ ] string
Method string
Body string
TLSServerName string
TLSSkipVerify bool
TCP string
UDP string
GRPC string
OSService string
GRPCUseTLS bool
IntervalDuration time . Duration ` json:"-" `
TimeoutDuration time . Duration ` json:"-" `
DeregisterCriticalServiceAfterDuration time . Duration ` json:"-" `
// DEPRECATED in Consul 1.4.1. Use the above time.Duration fields instead.
Interval ReadableDuration
Timeout ReadableDuration
DeregisterCriticalServiceAfter ReadableDuration
}
func ( d * HealthCheckDefinition ) MarshalJSON ( ) ( [ ] byte , error ) {
type Alias HealthCheckDefinition
out := & struct {
Interval string
Timeout string
DeregisterCriticalServiceAfter string
* Alias
} {
Interval : d . Interval . String ( ) ,
Timeout : d . Timeout . String ( ) ,
DeregisterCriticalServiceAfter : d . DeregisterCriticalServiceAfter . String ( ) ,
Alias : ( * Alias ) ( d ) ,
}
if d . IntervalDuration != 0 {
out . Interval = d . IntervalDuration . String ( )
} else if d . Interval != 0 {
out . Interval = d . Interval . String ( )
}
if d . TimeoutDuration != 0 {
out . Timeout = d . TimeoutDuration . String ( )
} else if d . Timeout != 0 {
out . Timeout = d . Timeout . String ( )
}
if d . DeregisterCriticalServiceAfterDuration != 0 {
out . DeregisterCriticalServiceAfter = d . DeregisterCriticalServiceAfterDuration . String ( )
} else if d . DeregisterCriticalServiceAfter != 0 {
out . DeregisterCriticalServiceAfter = d . DeregisterCriticalServiceAfter . String ( )
}
return json . Marshal ( out )
}
func ( t * HealthCheckDefinition ) UnmarshalJSON ( data [ ] byte ) ( err error ) {
type Alias HealthCheckDefinition
aux := & struct {
IntervalDuration interface { }
TimeoutDuration interface { }
DeregisterCriticalServiceAfterDuration interface { }
* Alias
} {
Alias : ( * Alias ) ( t ) ,
}
if err := json . Unmarshal ( data , & aux ) ; err != nil {
return err
}
// Parse the values into both the time.Duration and old ReadableDuration fields.
if aux . IntervalDuration == nil {
t . IntervalDuration = time . Duration ( t . Interval )
} else {
switch v := aux . IntervalDuration . ( type ) {
case string :
if t . IntervalDuration , err = time . ParseDuration ( v ) ; err != nil {
return err
}
case float64 :
t . IntervalDuration = time . Duration ( v )
}
t . Interval = ReadableDuration ( t . IntervalDuration )
}
if aux . TimeoutDuration == nil {
t . TimeoutDuration = time . Duration ( t . Timeout )
} else {
switch v := aux . TimeoutDuration . ( type ) {
case string :
if t . TimeoutDuration , err = time . ParseDuration ( v ) ; err != nil {
return err
}
case float64 :
t . TimeoutDuration = time . Duration ( v )
}
t . Timeout = ReadableDuration ( t . TimeoutDuration )
}
if aux . DeregisterCriticalServiceAfterDuration == nil {
t . DeregisterCriticalServiceAfterDuration = time . Duration ( t . DeregisterCriticalServiceAfter )
} else {
switch v := aux . DeregisterCriticalServiceAfterDuration . ( type ) {
case string :
if t . DeregisterCriticalServiceAfterDuration , err = time . ParseDuration ( v ) ; err != nil {
return err
}
case float64 :
t . DeregisterCriticalServiceAfterDuration = time . Duration ( v )
}
t . DeregisterCriticalServiceAfter = ReadableDuration ( t . DeregisterCriticalServiceAfterDuration )
}
return nil
}
// HealthChecks is a collection of HealthCheck structs.
type HealthChecks [ ] * HealthCheck
// AggregatedStatus returns the "best" status for the list of health checks.
// Because a given entry may have many service and node-level health checks
// attached, this function determines the best representative of the status as
// as single string using the following heuristic:
//
// maintenance > critical > warning > passing
func ( c HealthChecks ) AggregatedStatus ( ) string {
var passing , warning , critical , maintenance bool
for _ , check := range c {
id := check . CheckID
if id == NodeMaint || strings . HasPrefix ( id , ServiceMaintPrefix ) {
maintenance = true
continue
}
switch check . Status {
case HealthPassing :
passing = true
case HealthWarning :
warning = true
case HealthCritical :
critical = true
default :
return ""
}
}
switch {
case maintenance :
return HealthMaint
case critical :
return HealthCritical
case warning :
return HealthWarning
case passing :
return HealthPassing
default :
return HealthPassing
}
}
// ServiceEntry is used for the health service endpoint
type ServiceEntry struct {
Node * Node
Service * AgentService
Checks HealthChecks
}
// Health can be used to query the Health endpoints
type Health struct {
c * Client
}
// Health returns a handle to the health endpoints
func ( c * Client ) Health ( ) * Health {
return & Health { c }
}
// Node is used to query for checks belonging to a given node
func ( h * Health ) Node ( node string , q * QueryOptions ) ( HealthChecks , * QueryMeta , error ) {
r := h . c . newRequest ( "GET" , "/v1/health/node/" + node )
r . setQueryOptions ( q )
rtt , resp , err := h . c . doRequest ( r )
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 HealthChecks
if err := decodeBody ( resp , & out ) ; err != nil {
return nil , nil , err
}
return out , qm , nil
}
// Checks is used to return the checks associated with a service
func ( h * Health ) Checks ( service string , q * QueryOptions ) ( HealthChecks , * QueryMeta , error ) {
r := h . c . newRequest ( "GET" , "/v1/health/checks/" + service )
r . setQueryOptions ( q )
rtt , resp , err := h . c . doRequest ( r )
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 HealthChecks
if err := decodeBody ( resp , & out ) ; err != nil {
return nil , nil , err
}
return out , qm , nil
}
// Service is used to query health information along with service info
// for a given service. It can optionally do server-side filtering on a tag
// or nodes with passing health checks only.
func ( h * Health ) Service ( service , tag string , passingOnly bool , q * QueryOptions ) ( [ ] * ServiceEntry , * QueryMeta , error ) {
var tags [ ] string
if tag != "" {
tags = [ ] string { tag }
}
return h . service ( service , tags , passingOnly , q , serviceHealth )
}
func ( h * Health ) ServiceMultipleTags ( service string , tags [ ] string , passingOnly bool , q * QueryOptions ) ( [ ] * ServiceEntry , * QueryMeta , error ) {
return h . service ( service , tags , passingOnly , q , serviceHealth )
}
// Connect is equivalent to Service except that it will only return services
// which are Connect-enabled and will returns the connection address for Connect
// client's to use which may be a proxy in front of the named service. If
// passingOnly is true only instances where both the service and any proxy are
// healthy will be returned.
func ( h * Health ) Connect ( service , tag string , passingOnly bool , q * QueryOptions ) ( [ ] * ServiceEntry , * QueryMeta , error ) {
var tags [ ] string
if tag != "" {
tags = [ ] string { tag }
}
return h . service ( service , tags , passingOnly , q , connectHealth )
}
func ( h * Health ) ConnectMultipleTags ( service string , tags [ ] string , passingOnly bool , q * QueryOptions ) ( [ ] * ServiceEntry , * QueryMeta , error ) {
return h . service ( service , tags , passingOnly , q , connectHealth )
}
// Ingress is equivalent to Connect except that it will only return associated
// ingress gateways for the requested service.
func ( h * Health ) Ingress ( service string , passingOnly bool , q * QueryOptions ) ( [ ] * ServiceEntry , * QueryMeta , error ) {
var tags [ ] string
return h . service ( service , tags , passingOnly , q , ingressHealth )
}
func ( h * Health ) service ( service string , tags [ ] string , passingOnly bool , q * QueryOptions , healthType string ) ( [ ] * ServiceEntry , * QueryMeta , error ) {
var path string
switch healthType {
case connectHealth :
path = "/v1/health/connect/" + service
case ingressHealth :
path = "/v1/health/ingress/" + service
default :
path = "/v1/health/service/" + service
}
r := h . c . newRequest ( "GET" , path )
r . setQueryOptions ( q )
if len ( tags ) > 0 {
for _ , tag := range tags {
r . params . Add ( "tag" , tag )
}
}
if passingOnly {
r . params . Set ( HealthPassing , "1" )
}
rtt , resp , err := h . c . doRequest ( r )
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 [ ] * ServiceEntry
if err := decodeBody ( resp , & out ) ; err != nil {
return nil , nil , err
}
return out , qm , nil
}
// State is used to retrieve all the checks in a given state.
// The wildcard "any" state can also be used for all checks.
func ( h * Health ) State ( state string , q * QueryOptions ) ( HealthChecks , * QueryMeta , error ) {
switch state {
case HealthAny :
case HealthWarning :
case HealthCritical :
case HealthPassing :
default :
return nil , nil , fmt . Errorf ( "Unsupported state: %v" , state )
}
r := h . c . newRequest ( "GET" , "/v1/health/state/" + state )
r . setQueryOptions ( q )
rtt , resp , err := h . c . doRequest ( r )
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 HealthChecks
if err := decodeBody ( resp , & out ) ; err != nil {
return nil , nil , err
}
return out , qm , nil
}