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forward_grpc_test.go
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forward_grpc_test.go
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package veneur
import (
"context"
"net"
"testing"
"time"
"github.com/sirupsen/logrus"
"github.com/stretchr/testify/assert"
"github.com/stripe/veneur/samplers"
"github.com/stripe/veneur/sinks"
)
const (
grpcTestMetricPrefix = "test.grpc."
)
type forwardGRPCFixture struct {
t testing.TB
proxy *Proxy
global *Server
local *Server
}
// newForwardGRPCFixture creates a set of resources that forward to each other
// over gRPC. Specifically this includes a local Server, which forwards
// metrics over gRPC to a Proxy, which then forwards over gRPC again to a
// global Server.
func newForwardGRPCFixture(t testing.TB, localConfig Config, sink sinks.MetricSink) *forwardGRPCFixture {
// Create a global Veneur
globalCfg := globalConfig()
globalCfg.GrpcAddress = unusedLocalTCPAddress(t)
global := setupVeneurServer(t, globalCfg, nil, sink, nil, nil)
go func() {
global.Serve()
}()
waitForHTTPStart(t, global, 3*time.Second)
// Create a proxy Veneur
proxyCfg := generateProxyConfig()
proxyCfg.GrpcForwardAddress = globalCfg.GrpcAddress
proxyCfg.GrpcAddress = unusedLocalTCPAddress(t)
proxyCfg.ConsulForwardServiceName = ""
proxy, err := NewProxyFromConfig(logrus.New(), proxyCfg)
assert.NoError(t, err)
go func() {
proxy.Serve()
}()
waitForHTTPStart(t, &proxy, 3*time.Second)
localConfig.ForwardAddress = proxyCfg.GrpcAddress
localConfig.ForwardUseGrpc = true
local := setupVeneurServer(t, localConfig, nil, nil, nil, nil)
return &forwardGRPCFixture{t: t, proxy: &proxy, global: global, local: local}
}
// stop stops all of the various servers inside the fixture.
func (ff *forwardGRPCFixture) stop() {
ff.proxy.Shutdown()
ff.global.Shutdown()
ff.local.Shutdown()
}
// IngestMetric synchronously writes a metric to the forwarding
// fixture's local veneur span worker. The fixture must be flushed via
// the (*forwardFixture).local.Flush method so the ingestion effects can be
// observed.
func (ff *forwardGRPCFixture) IngestMetric(m *samplers.UDPMetric) {
ff.local.Workers[0].ProcessMetric(m)
}
// unusedLocalTCPAddress returns a host:port combination on the loopback
// interface that *should* be available for usage.
// This is definitely pretty hacky, but I was having a tricky time coming
// up with a good way to expose the gRPC listening address of the server or
// proxy without awkwardly saving the listener or listen address, and then
// modifying the gRPC serve function to create the network listener before
// spawning the goroutine.
func unusedLocalTCPAddress(t testing.TB) string {
ln, err := net.Listen("tcp", "127.0.0.1:")
if err != nil {
t.Fatalf("Failed to bind to a test port: %v", err)
}
defer ln.Close()
return ln.Addr().String()
}
// testGRPCMetric appends a common prefix to the given metric name.
func testGRPCMetric(name string) string {
return grpcTestMetricPrefix + name
}
func forwardGRPCTestMetrics() []*samplers.UDPMetric {
return []*samplers.UDPMetric{
&samplers.UDPMetric{
MetricKey: samplers.MetricKey{
Name: testGRPCMetric("histogram"),
Type: histogramTypeName,
},
Value: 20.0,
Digest: 12345,
SampleRate: 1.0,
Scope: samplers.MixedScope,
},
&samplers.UDPMetric{
MetricKey: samplers.MetricKey{
Name: testGRPCMetric("histogram_global"),
Type: histogramTypeName,
},
Value: 20.0,
Digest: 12345,
SampleRate: 1.0,
Scope: samplers.GlobalOnly,
},
&samplers.UDPMetric{
MetricKey: samplers.MetricKey{
Name: testGRPCMetric("gauge"),
Type: gaugeTypeName,
},
Value: 1.0,
SampleRate: 1.0,
Scope: samplers.GlobalOnly,
},
&samplers.UDPMetric{
MetricKey: samplers.MetricKey{
Name: testGRPCMetric("counter"),
Type: counterTypeName,
},
Value: 2.0,
SampleRate: 1.0,
Scope: samplers.GlobalOnly,
},
&samplers.UDPMetric{
MetricKey: samplers.MetricKey{
Name: testGRPCMetric("timer_mixed"),
Type: timerTypeName,
},
Value: 100.0,
Digest: 12345,
SampleRate: 1.0,
Scope: samplers.MixedScope,
},
&samplers.UDPMetric{
MetricKey: samplers.MetricKey{
Name: testGRPCMetric("timer"),
Type: timerTypeName,
},
Value: 100.0,
Digest: 12345,
SampleRate: 1.0,
Scope: samplers.GlobalOnly,
},
&samplers.UDPMetric{
MetricKey: samplers.MetricKey{
Name: testGRPCMetric("set"),
Type: setTypeName,
},
Value: "test",
SampleRate: 1.0,
Scope: samplers.GlobalOnly,
},
// Only global metrics should be forwarded
&samplers.UDPMetric{
MetricKey: samplers.MetricKey{
Name: testGRPCMetric("counter.local"),
Type: counterTypeName,
},
Value: 100.0,
Digest: 12345,
SampleRate: 1.0,
Scope: samplers.MixedScope,
},
}
}
// TestE2EForwardingGRPCMetrics inputs a set of metrics to a local Veneur,
// and verifies that the same metrics are later flushed by the global Veneur
// after passing through a proxy.
func TestE2EForwardingGRPCMetrics(t *testing.T) {
ch := make(chan []samplers.InterMetric)
sink, _ := NewChannelMetricSink(ch)
ff := newForwardGRPCFixture(t, localConfig(), sink)
defer ff.stop()
input := forwardGRPCTestMetrics()
for _, metric := range input {
ff.IngestMetric(metric)
}
done := make(chan struct{})
go func() {
defer close(done)
expected := map[string]bool{}
for _, name := range []string{
testGRPCMetric("histogram.50percentile"),
testGRPCMetric("histogram.75percentile"),
testGRPCMetric("histogram.99percentile"),
testGRPCMetric("histogram_global.99percentile"),
testGRPCMetric("histogram_global.50percentile"),
testGRPCMetric("histogram_global.75percentile"),
testGRPCMetric("histogram_global.max"),
testGRPCMetric("histogram_global.min"),
testGRPCMetric("histogram_global.count"),
testGRPCMetric("timer_mixed.50percentile"),
testGRPCMetric("timer_mixed.75percentile"),
testGRPCMetric("timer_mixed.99percentile"),
testGRPCMetric("timer.50percentile"),
testGRPCMetric("timer.75percentile"),
testGRPCMetric("timer.99percentile"),
testGRPCMetric("timer.max"),
testGRPCMetric("timer.min"),
testGRPCMetric("timer.count"),
testGRPCMetric("counter"),
testGRPCMetric("gauge"),
testGRPCMetric("set"),
} {
expected[name] = false
}
metrics:
for {
metrics := <-ch
for _, metric := range metrics {
_, ok := expected[metric.Name]
if !ok {
t.Errorf("unexpected metric %q", metric.Name)
continue
}
expected[metric.Name] = true
}
for name, got := range expected {
if !got {
// we have more metrics to read:
t.Logf("metric %q still missing", name)
continue metrics
}
}
// if there had been metrics to read, we'd
// have restarted the loop:
return
}
}()
ff.local.Flush(context.TODO())
ff.global.Flush(context.TODO())
select {
case <-done:
case <-time.After(3 * time.Second):
t.Fatal("Timed out waiting for a metric after 3 seconds")
}
}