micro/util/grpc/tracer.go

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package grpc_util
import (
"context"
"net"
"strconv"
"strings"
"sync/atomic"
"time"
"go.unistack.org/micro/v3/tracer"
grpc_codes "google.golang.org/grpc/codes"
"google.golang.org/grpc/peer"
"google.golang.org/grpc/stats"
"google.golang.org/grpc/status"
)
type gRPCContextKey struct{}
type gRPCContext struct {
messagesReceived int64
messagesSent int64
}
type Options struct {
Tracer tracer.Tracer
}
type Option func(*Options)
func Tracer(tr tracer.Tracer) Option {
return func(o *Options) {
o.Tracer = tr
}
}
// NewServerHandler creates a stats.Handler for gRPC server.
func NewServerHandler(opts ...Option) stats.Handler {
options := Options{Tracer: tracer.DefaultTracer}
for _, o := range opts {
o(&options)
}
h := &serverHandler{
opts: options,
}
return h
}
type serverHandler struct {
opts Options
}
// TagRPC can attach some information to the given context.
func (h *serverHandler) TagRPC(ctx context.Context, info *stats.RPCTagInfo) context.Context {
name, attrs := parseFullMethod(info.FullMethodName)
attrs = append(attrs, "rpc.system", "grpc")
ctx, _ = h.opts.Tracer.Start(
ctx,
name,
tracer.WithSpanKind(tracer.SpanKindServer),
tracer.WithSpanLabels(attrs...),
)
gctx := gRPCContext{}
return context.WithValue(ctx, gRPCContextKey{}, &gctx)
}
// HandleRPC processes the RPC stats.
func (h *serverHandler) HandleRPC(ctx context.Context, rs stats.RPCStats) {
handleRPC(ctx, rs)
}
// TagConn can attach some information to the given context.
func (h *serverHandler) TagConn(ctx context.Context, _ *stats.ConnTagInfo) context.Context {
if span, ok := tracer.SpanFromContext(ctx); ok {
attrs := peerAttr(peerFromCtx(ctx))
span.AddLabels(attrs...)
}
return ctx
}
// HandleConn processes the Conn stats.
func (h *serverHandler) HandleConn(_ context.Context, _ stats.ConnStats) {
}
type clientHandler struct {
opts Options
}
// NewClientHandler creates a stats.Handler for gRPC client.
func NewClientHandler(opts ...Option) stats.Handler {
options := Options{Tracer: tracer.DefaultTracer}
for _, o := range opts {
o(&options)
}
h := &clientHandler{
opts: options,
}
return h
}
// TagRPC can attach some information to the given context.
func (h *clientHandler) TagRPC(ctx context.Context, info *stats.RPCTagInfo) context.Context {
name, attrs := parseFullMethod(info.FullMethodName)
attrs = append(attrs, "rpc.system", "grpc", "rpc.flavor", "grpc", "rpc.call", info.FullMethodName)
ctx, _ = h.opts.Tracer.Start(
ctx,
name,
tracer.WithSpanKind(tracer.SpanKindClient),
tracer.WithSpanLabels(attrs...),
)
gctx := gRPCContext{}
return context.WithValue(ctx, gRPCContextKey{}, &gctx)
}
// HandleRPC processes the RPC stats.
func (h *clientHandler) HandleRPC(ctx context.Context, rs stats.RPCStats) {
handleRPC(ctx, rs)
}
// TagConn can attach some information to the given context.
func (h *clientHandler) TagConn(ctx context.Context, cti *stats.ConnTagInfo) context.Context {
// TODO
if span, ok := tracer.SpanFromContext(ctx); ok {
attrs := peerAttr(cti.RemoteAddr.String())
span.AddLabels(attrs...)
}
return ctx
}
// HandleConn processes the Conn stats.
func (h *clientHandler) HandleConn(context.Context, stats.ConnStats) {
// no-op
}
func handleRPC(ctx context.Context, rs stats.RPCStats) {
span, ok := tracer.SpanFromContext(ctx)
gctx, _ := ctx.Value(gRPCContextKey{}).(*gRPCContext)
var messageID int64
if rs.IsClient() {
span.AddLabels("span.kind", "client")
} else {
span.AddLabels("span.kind", "server")
}
switch rs := rs.(type) {
case *stats.Begin:
if rs.IsClientStream || rs.IsServerStream {
span.AddLabels("rpc.call_type", "stream")
} else {
span.AddLabels("rpc.call_type", "unary")
}
span.AddEvent("message",
tracer.WithEventLabels(
"message.begin_time", rs.BeginTime.Format(time.RFC3339),
),
)
case *stats.InPayload:
if gctx != nil {
messageID = atomic.AddInt64(&gctx.messagesReceived, 1)
}
if ok {
span.AddEvent("message",
tracer.WithEventLabels(
"message.recv_time", rs.RecvTime.Format(time.RFC3339),
"message.type", "RECEIVED",
"message.id", messageID,
"message.compressed_size", rs.CompressedLength,
"message.uncompressed_size", rs.Length,
),
)
}
case *stats.OutPayload:
if gctx != nil {
messageID = atomic.AddInt64(&gctx.messagesSent, 1)
}
if ok {
span.AddEvent("message",
tracer.WithEventLabels(
"message.sent_time", rs.SentTime.Format(time.RFC3339),
"message.type", "SENT",
"message.id", messageID,
"message.compressed_size", rs.CompressedLength,
"message.uncompressed_size", rs.Length,
),
)
}
case *stats.End:
if ok {
span.AddEvent("message",
tracer.WithEventLabels(
"message.begin_time", rs.BeginTime.Format(time.RFC3339),
"message.end_time", rs.EndTime.Format(time.RFC3339),
),
)
if rs.Error != nil {
s, _ := status.FromError(rs.Error)
span.SetStatus(tracer.SpanStatusError, s.Message())
span.AddLabels("rpc.grpc.status_code", s.Code())
} else {
span.AddLabels("rpc.grpc.status_code", grpc_codes.OK)
}
span.Finish()
}
default:
return
}
}
func parseFullMethod(fullMethod string) (string, []interface{}) {
if !strings.HasPrefix(fullMethod, "/") {
// Invalid format, does not follow `/package.service/method`.
return fullMethod, nil
}
name := fullMethod[1:]
pos := strings.LastIndex(name, "/")
if pos < 0 {
// Invalid format, does not follow `/package.service/method`.
return name, nil
}
service, method := name[:pos], name[pos+1:]
var attrs []interface{}
if service != "" {
attrs = append(attrs, "rpc.service", service)
}
if method != "" {
attrs = append(attrs, "rpc.method", method)
}
return name, attrs
}
func peerAttr(addr string) []interface{} {
host, p, err := net.SplitHostPort(addr)
if err != nil {
return nil
}
if host == "" {
host = "127.0.0.1"
}
port, err := strconv.Atoi(p)
if err != nil {
return nil
}
var attr []interface{}
if ip := net.ParseIP(host); ip != nil {
attr = []interface{}{
"net.sock.peer.addr", host,
"net.sock.peer.port", port,
}
} else {
attr = []interface{}{
"net.peer.name", host,
"net.peer.port", port,
}
}
return attr
}
func peerFromCtx(ctx context.Context) string {
p, ok := peer.FromContext(ctx)
if !ok {
return ""
}
return p.Addr.String()
}