package agent
import (
Use fmt.Fprint/Fprintf/Fprintln
Used the following rewrite rules:
gofmt -w -r 'resp.Write([]byte(fmt.Sprintf(a, b, c, d))) -> fmt.Fprintf(resp, a, b, c, d)' *.go
gofmt -w -r 'resp.Write([]byte(fmt.Sprintf(a, b, c))) -> fmt.Fprintf(resp, a, b, c)' *.go
gofmt -w -r 'resp.Write([]byte(fmt.Sprintf(a, b))) -> fmt.Fprintf(resp, a, b)' *.go
gofmt -w -r 'resp.Write([]byte(fmt.Sprintf(a))) -> fmt.Fprint(resp, a)' *.go
gofmt -w -r 'resp.Write([]byte(a + "\n")) -> fmt.Fprintln(resp, a)' *.go
gofmt -w -r 'resp.Write([]byte(a)) -> fmt.Fprint(resp, a)' *.go
8 years ago
"fmt"
"net/http"
"sort"
"strings"
"github.com/hashicorp/consul/agent/structs"
"github.com/hashicorp/consul/api"
)
// metaExternalSource is the key name for the service instance meta that
// defines the external syncing source. This is used by the UI APIs below
// to extract this.
const metaExternalSource = "external-source"
// ServiceSummary is used to summarize a service
type ServiceSummary struct {
Kind structs . ServiceKind ` json:",omitempty" `
Name string
Tags [ ] string
Nodes [ ] string
InstanceCount int
ProxyFor [ ] string ` json:",omitempty" `
proxyForSet map [ string ] struct { } // internal to track uniqueness
ChecksPassing int
ChecksWarning int
ChecksCritical int
ExternalSources [ ] string
externalSourceSet map [ string ] struct { } // internal to track uniqueness
structs . EnterpriseMeta
}
// UINodes is used to list the nodes in a given datacenter. We return a
// NodeDump which provides overview information for all the nodes
func ( s * HTTPServer ) UINodes ( resp http . ResponseWriter , req * http . Request ) ( interface { } , error ) {
// Parse arguments
args := structs . DCSpecificRequest { }
if done := s . parse ( resp , req , & args . Datacenter , & args . QueryOptions ) ; done {
return nil , nil
}
if err := s . parseEntMeta ( req , & args . EnterpriseMeta ) ; err != nil {
return nil , err
}
s . parseFilter ( req , & args . Filter )
// Make the RPC request
var out structs . IndexedNodeDump
defer setMeta ( resp , & out . QueryMeta )
RPC :
if err := s . agent . RPC ( "Internal.NodeDump" , & args , & out ) ; err != nil {
// Retry the request allowing stale data if no leader
if strings . Contains ( err . Error ( ) , structs . ErrNoLeader . Error ( ) ) && ! args . AllowStale {
args . AllowStale = true
goto RPC
}
return nil , err
}
// Use empty list instead of nil
for _ , info := range out . Dump {
if info . Services == nil {
info . Services = make ( [ ] * structs . NodeService , 0 )
}
if info . Checks == nil {
info . Checks = make ( [ ] * structs . HealthCheck , 0 )
}
}
if out . Dump == nil {
out . Dump = make ( structs . NodeDump , 0 )
}
return out . Dump , nil
}
// UINodeInfo is used to get info on a single node in a given datacenter. We return a
// NodeInfo which provides overview information for the node
func ( s * HTTPServer ) UINodeInfo ( resp http . ResponseWriter , req * http . Request ) ( interface { } , error ) {
// Parse arguments
args := structs . NodeSpecificRequest { }
if done := s . parse ( resp , req , & args . Datacenter , & args . QueryOptions ) ; done {
return nil , nil
}
if err := s . parseEntMeta ( req , & args . EnterpriseMeta ) ; err != nil {
return nil , err
}
// Verify we have some DC, or use the default
args . Node = strings . TrimPrefix ( req . URL . Path , "/v1/internal/ui/node/" )
if args . Node == "" {
resp . WriteHeader ( http . StatusBadRequest )
Use fmt.Fprint/Fprintf/Fprintln
Used the following rewrite rules:
gofmt -w -r 'resp.Write([]byte(fmt.Sprintf(a, b, c, d))) -> fmt.Fprintf(resp, a, b, c, d)' *.go
gofmt -w -r 'resp.Write([]byte(fmt.Sprintf(a, b, c))) -> fmt.Fprintf(resp, a, b, c)' *.go
gofmt -w -r 'resp.Write([]byte(fmt.Sprintf(a, b))) -> fmt.Fprintf(resp, a, b)' *.go
gofmt -w -r 'resp.Write([]byte(fmt.Sprintf(a))) -> fmt.Fprint(resp, a)' *.go
gofmt -w -r 'resp.Write([]byte(a + "\n")) -> fmt.Fprintln(resp, a)' *.go
gofmt -w -r 'resp.Write([]byte(a)) -> fmt.Fprint(resp, a)' *.go
8 years ago
fmt . Fprint ( resp , "Missing node name" )
return nil , nil
}
// Make the RPC request
var out structs . IndexedNodeDump
defer setMeta ( resp , & out . QueryMeta )
RPC :
if err := s . agent . RPC ( "Internal.NodeInfo" , & args , & out ) ; err != nil {
// Retry the request allowing stale data if no leader
if strings . Contains ( err . Error ( ) , structs . ErrNoLeader . Error ( ) ) && ! args . AllowStale {
args . AllowStale = true
goto RPC
}
return nil , err
}
// Return only the first entry
if len ( out . Dump ) > 0 {
info := out . Dump [ 0 ]
if info . Services == nil {
info . Services = make ( [ ] * structs . NodeService , 0 )
}
if info . Checks == nil {
info . Checks = make ( [ ] * structs . HealthCheck , 0 )
}
return info , nil
}
resp . WriteHeader ( http . StatusNotFound )
return nil , nil
}
// UIServices is used to list the services in a given datacenter. We return a
// ServiceSummary which provides overview information for the service
func ( s * HTTPServer ) UIServices ( resp http . ResponseWriter , req * http . Request ) ( interface { } , error ) {
// Parse arguments
args := structs . ServiceDumpRequest { }
if done := s . parse ( resp , req , & args . Datacenter , & args . QueryOptions ) ; done {
return nil , nil
}
if err := s . parseEntMeta ( req , & args . EnterpriseMeta ) ; err != nil {
return nil , err
}
s . parseFilter ( req , & args . Filter )
// Make the RPC request
var out structs . IndexedCheckServiceNodes
defer setMeta ( resp , & out . QueryMeta )
RPC :
if err := s . agent . RPC ( "Internal.ServiceDump" , & args , & out ) ; err != nil {
// Retry the request allowing stale data if no leader
if strings . Contains ( err . Error ( ) , structs . ErrNoLeader . Error ( ) ) && ! args . AllowStale {
args . AllowStale = true
goto RPC
}
return nil , err
}
// Generate the summary
return summarizeServices ( out . Nodes ) , nil
}
func summarizeServices ( dump structs . CheckServiceNodes ) [ ] * ServiceSummary {
// Collect the summary information
var services [ ] structs . ServiceID
summary := make ( map [ structs . ServiceID ] * ServiceSummary )
getService := func ( service structs . ServiceID ) * ServiceSummary {
serv , ok := summary [ service ]
if ! ok {
serv = & ServiceSummary {
Name : service . ID ,
EnterpriseMeta : service . EnterpriseMeta ,
// the other code will increment this unconditionally so we
// shouldn't initialize it to 1
InstanceCount : 0 ,
}
summary [ service ] = serv
services = append ( services , service )
}
return serv
}
for _ , csn := range dump {
svc := csn . Service
sum := getService ( structs . NewServiceID ( svc . Service , & svc . EnterpriseMeta ) )
sum . Nodes = append ( sum . Nodes , csn . Node . Node )
sum . Kind = svc . Kind
sum . InstanceCount += 1
if svc . Kind == structs . ServiceKindConnectProxy {
if _ , ok := sum . proxyForSet [ svc . Proxy . DestinationServiceName ] ; ! ok {
if sum . proxyForSet == nil {
sum . proxyForSet = make ( map [ string ] struct { } )
}
sum . proxyForSet [ svc . Proxy . DestinationServiceName ] = struct { } { }
sum . ProxyFor = append ( sum . ProxyFor , svc . Proxy . DestinationServiceName )
}
}
for _ , tag := range svc . Tags {
found := false
for _ , existing := range sum . Tags {
if existing == tag {
found = true
break
}
}
if ! found {
sum . Tags = append ( sum . Tags , tag )
}
}
// If there is an external source, add it to the list of external
// sources. We only want to add unique sources so there is extra
// accounting here with an unexported field to maintain the set
// of sources.
if len ( svc . Meta ) > 0 && svc . Meta [ metaExternalSource ] != "" {
source := svc . Meta [ metaExternalSource ]
if sum . externalSourceSet == nil {
sum . externalSourceSet = make ( map [ string ] struct { } )
}
if _ , ok := sum . externalSourceSet [ source ] ; ! ok {
sum . externalSourceSet [ source ] = struct { } { }
sum . ExternalSources = append ( sum . ExternalSources , source )
}
}
for _ , check := range csn . Checks {
switch check . Status {
case api . HealthPassing :
sum . ChecksPassing ++
case api . HealthWarning :
sum . ChecksWarning ++
case api . HealthCritical :
sum . ChecksCritical ++
}
}
}
// Return the services in sorted order
sort . Slice ( services , func ( i , j int ) bool {
return services [ i ] . LessThan ( & services [ j ] )
} )
output := make ( [ ] * ServiceSummary , len ( summary ) )
for idx , service := range services {
// Sort the nodes
sum := summary [ service ]
sort . Strings ( sum . Nodes )
output [ idx ] = sum
}
return output
}