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consul/agent/rpc/middleware/interceptors.go

209 lines
5.7 KiB

// Copyright (c) HashiCorp, Inc.
// SPDX-License-Identifier: BUSL-1.1
package middleware
import (
"net"
"reflect"
"strconv"
"strings"
"time"
"github.com/armon/go-metrics"
"github.com/armon/go-metrics/prometheus"
"github.com/hashicorp/go-hclog"
"github.com/hashicorp/consul-net-rpc/net/rpc"
rpcRate "github.com/hashicorp/consul/agent/consul/rate"
)
// RPCTypeInternal identifies the "RPC" request as coming from some internal
// operation that runs on the cluster leader. Technically this is not an RPC
// request, but these raft.Apply operations have the same impact on blocking
// queries, and streaming subscriptions, so need to be tracked by the same metric
// and logs.
// Really what we are measuring here is a "cluster operation". The term we have
// used for this historically is "RPC", so we continue to use that here.
const RPCTypeInternal = "internal"
const RPCTypeNetRPC = "net/rpc"
var metricRPCRequest = []string{"rpc", "server", "call"}
var requestLogName = strings.Join(metricRPCRequest, "_")
var OneTwelveRPCSummary = []prometheus.SummaryDefinition{
{
Name: metricRPCRequest,
Help: "Measures the time an RPC service call takes to make in milliseconds. Labels mark which RPC method was called and metadata about the call.",
},
}
type RequestRecorder struct {
Logger hclog.Logger
RecorderFunc func(key []string, val float32, labels []metrics.Label)
serverIsLeader func() bool
localDC string
}
func NewRequestRecorder(logger hclog.Logger, isLeader func() bool, localDC string) *RequestRecorder {
return &RequestRecorder{
Logger: logger,
RecorderFunc: metrics.AddSampleWithLabels,
serverIsLeader: isLeader,
localDC: localDC,
}
}
func (r *RequestRecorder) Record(requestName string, rpcType string, start time.Time, request interface{}, respErrored bool) {
elapsed := time.Since(start).Microseconds()
elapsedMs := float32(elapsed) / 1000
reqType := requestType(request)
isLeader := r.getServerLeadership()
labels := []metrics.Label{
{Name: "method", Value: requestName},
{Name: "errored", Value: strconv.FormatBool(respErrored)},
{Name: "request_type", Value: reqType},
{Name: "rpc_type", Value: rpcType},
{Name: "leader", Value: isLeader},
}
labels = r.addOptionalLabels(request, labels)
// math.MaxInt64 < math.MaxFloat32 is true so we should be good!
r.RecorderFunc(metricRPCRequest, elapsedMs, labels)
labelsArr := flattenLabels(labels)
r.Logger.Trace(requestLogName, labelsArr...)
}
func flattenLabels(labels []metrics.Label) []interface{} {
var labelArr []interface{}
for _, label := range labels {
labelArr = append(labelArr, label.Name, label.Value)
}
return labelArr
}
func (r *RequestRecorder) addOptionalLabels(request interface{}, labels []metrics.Label) []metrics.Label {
if rq, ok := request.(readQuery); ok {
labels = append(labels,
metrics.Label{
Name: "allow_stale",
Value: strconv.FormatBool(rq.AllowStaleRead()),
},
metrics.Label{
Name: "blocking",
Value: strconv.FormatBool(rq.GetMinQueryIndex() > 0),
})
}
if td, ok := request.(targetDC); ok {
requestDC := td.RequestDatacenter()
labels = append(labels, metrics.Label{Name: "target_datacenter", Value: requestDC})
if r.localDC == requestDC {
labels = append(labels, metrics.Label{Name: "locality", Value: "local"})
} else {
labels = append(labels, metrics.Label{Name: "locality", Value: "forwarded"})
}
}
return labels
}
func requestType(req interface{}) string {
if r, ok := req.(interface{ IsRead() bool }); ok {
if r.IsRead() {
return "read"
} else {
return "write"
}
}
// This logical branch should not happen. If it happens
// it means an underlying request is not implementing the interface.
// Rather than swallowing it up in a "read" or "write", let's be aware of it.
return "unreported"
}
func (r *RequestRecorder) getServerLeadership() string {
if r.serverIsLeader != nil {
if r.serverIsLeader() {
return "true"
} else {
return "false"
}
}
// This logical branch should not happen. If it happens
// it means that we have not plumbed down a way to verify
// whether the server handling the request was a leader or not
return "unreported"
}
type readQuery interface {
GetMinQueryIndex() uint64
AllowStaleRead() bool
}
type targetDC interface {
RequestDatacenter() string
}
func GetNetRPCInterceptor(recorder *RequestRecorder) rpc.ServerServiceCallInterceptor {
return func(reqServiceMethod string, argv, replyv reflect.Value, handler func() error) {
reqStart := time.Now()
err := handler()
recorder.Record(reqServiceMethod, RPCTypeNetRPC, reqStart, argv.Interface(), err != nil)
}
}
func GetNetRPCRateLimitingInterceptor(requestLimitsHandler rpcRate.RequestLimitsHandler, panicHandler RecoveryHandlerFunc) rpc.PreBodyInterceptor {
return func(reqServiceMethod string, sourceAddr net.Addr) (retErr error) {
defer func() {
if r := recover(); r != nil {
retErr = panicHandler(r)
}
}()
op := rpcRate.Operation{
Name: reqServiceMethod,
SourceAddr: sourceAddr,
Type: rpcRateLimitSpecs[reqServiceMethod].Type,
Category: rpcRateLimitSpecs[reqServiceMethod].Category,
}
// net/rpc does not provide a way to encode the nuances of the
// error response (retry or retry elsewhere) so the error string
// from the rate limiter is all that we have.
return requestLimitsHandler.Allow(op)
}
}
func ChainedRPCPreBodyInterceptor(chain ...rpc.PreBodyInterceptor) rpc.PreBodyInterceptor {
if len(chain) == 0 {
panic("don't call this with zero interceptors")
}
if len(chain) == 1 {
return chain[0]
}
return func(reqServiceMethod string, sourceAddr net.Addr) error {
for _, interceptor := range chain {
if err := interceptor(reqServiceMethod, sourceAddr); err != nil {
return err
}
}
return nil
}
}