profiling/

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Published: Oct 26, 2020 License: Apache-2.0

README

gRPC-Go Profiling

  • Author(s): adtac
  • Status: Experimental
  • Availability: gRPC-Go >= 1.27
  • Last updated: December 17, 2019

gRPC-Go has built-in profiling that can be used to generate a detailed timeline of the lifecycle of an RPC request. This can be done on the client-side and the server-side. This directory contains an example client-server implementation with profiling enabled and some example commands you can run to remotely manage profiling.

Typically, there are three logically separate parts involved in integrating profiling into your application:

  1. Register the Profiling service: this requires a simple code change in your application.
  2. Enable profiling when required: profiling is disabled by default and must be enabled remotely or at server initialization.
  3. Download and process profiling data: once your application has collected enough profiling data, you must use a bundled command-line application to download your data and process it to generate human-friendly visualization.

Registering the Profiling Service

Server-Side

Typically, you would create and register a server like so (some Go is shortened in the interest of brevity; please see the server subdirectory for a full implementation):

import (
	"code.aliyun.com/yjkj.ink/grpc"
	profsvc "code.aliyun.com/yjkj.ink/grpc/profiling/service"
	pb "code.aliyun.com/yjkj.ink/grpc/examples/features/proto/echo"
)

type server struct{}

func main() error {
	s := grpc.NewServer()
	pb.RegisterEchoServer(s, &server{})

	// Include this to register a profiling-specific service within your server.
	if err := profsvc.Init(&profsvc.ProfilingConfig{Server: s}); err != nil {
		fmt.Printf("error calling profsvc.Init: %v\n", err)
		return
	}

	lis, _ := net.Listen("tcp", address)
	s.Serve(lis)
}

To register your server for profiling, simply call the profsvc.Init method as shown above. The passed ProfilingConfig parameter must set the Server field to a server that is being served on a TCP address.

Client-Side

To register profiling on the client-side, you must create a server to expose your profiling data in order for it to be retrievable. To do this, it is recommended that you create a dummy, dedicated server with no service other than profiling's. See the client directory for an example client.

Enabling/Disabling Profiling

Once profiling is baked into your server (unless otherwise specified, from here on, the word "server" will be used to refer to a grpc.Server, not the server/client distinction from the previous subsection), you need to enable profiling. There are three ways to do this -- at initialization, remotely post-initialization, or programmatically within Go.

Enabling Profiling at Initialization

To force profiling to start measuring data right from the first RPC, set the Enabled attribute of the ProfilingConfig struct to true when you are initializing profiling.

	// Set Enabled: true to turn profiling on at initialization time.
	profsvc.Init(&profsvc.ProfilingConfig{
		Server:  s,
		Enabled: true,
	})
Enabling/Disabling Remotely

Alternatively, you can enable/disable profiling any time after server initialization by using a bundled command-line tool designed for remote profiling management. Assuming example.com:50051 is the address of the server that you would like to enable profiling in, do the following:

$ go run code.aliyun.com/yjkj.ink/grpc/profiling/cmd \
    -address example.com:50051                \
    -enable-profiling

Similarly, running the command with -disable-profiling can be used to disable profiling remotely.

Enabling/Disabling Within Go

In addition to the remote service that is exposed, you may enable/disable profiling within your application in Go:

import (
	"code.aliyun.com/yjkj.ink/grpc/profiling"
)

func setProfiling(enable bool) {
	profiling.Enable(true)
}

The profiling.Enable function can be safely accessed and called concurrently.

Downloading and Processing Profiling Data

Once your server has collected enough profiling data, you may want to download that data and perform some analysis on the retrieved data. The aforementioned command-line application within gRPC comes bundled with support for both operations.

To retrieve profiling data from a remote server, run the following command:

$ go run code.aliyun.com/yjkj.ink/grpc/profiling/cmd \
    -address example.com:50051                \
    -retrieve-snapshot                        \
    -snapshot /path/to/snapshot

You must provide a path to -snapshot that can be written to. This file will store the retrieved data in a raw and binary form.

To process this data into a human-consumable such as Catapult's trace-viewer format:

$ go run code.aliyun.com/yjkj.ink/grpc/profiling/cmd \
    -snapshot /path/to/snapshot               \
    -stream-stats-catapult-json /path/to/json

This would read the data stored in /path/to/snapshot and process it to generate a JSON format that is understood by Chromium's Catapult project. The Catapult project comes with a utility called trace-viewer, which can be used to generate human-readable visualizations:

$ git clone https://chromium.googlesource.com/catapult /path/to/catapult
$ /path/to/catapult/tracing/bin/trace2html /path/to/json --output=/path/to/html

When the generated /path/to/html file is opened with a browser, you will be presented with a detailed visualization of the lifecycle of all RPC requests. To learn more about trace-viewer and how to navigate the generated HTML, see this.

Frequently Asked Questions

I have multiple grpc.Servers in my application. Can I register profiling with just one of them?

You may not call profsvc.Init more than once -- all calls except for the first one will return an error. As a corollary, it is also not possible to register or enable/disable profiling for just one grpc.Server or operation. That is, you can enable/disable profiling globally for all gRPC operations or none at all.

Is code.aliyun.com/yjkj.ink/grpc/profiling/cmd the canonical implementation of a client that can talk to the profiling service?

No, the command-line tool is simply provided as a reference implementation and as a convenience. You are free to write your own tool as long as it can communicate using the underlying protocol buffers.

Is Catapult's trace-viewer the only option that is supported?

Currently, yes. However, support for other (or better) visualization tools is welcome.

What is the impact of profiling on application performance?

When turned off, profiling has virtually no impact on the performance (QPS, latency, memory footprint) of your application. However, when turned on, expect a 5-10% throughput/latency penalty and double the memory footprint.

Profiling is mostly used by gRPC-Go devs. However, if you foresee using profiling in production machines, because of the negligible impact of profiling when turned off, you may want to register/initialize your applications with profiling (but leave it turned off). This will be useful in the off-chance you want to debug an application later -- in such an event, you can simply remotely toggle profiling using the go run command previously described to enable profiling data collection. Once you're confident that enough profiling data has been measured, you can turn it off again and retrieve the data for post-processing (see previous section).

How many RPCs worth of data is stored by profiling? I'd like to restrict the memory footprint of gRPC's profiling framework to a fixed amount.

By default, at any given time, the last 214 RPCs worth of data is stored by profiling. Newly generated profiling data overwrites older data. Note that the internal data structure is not strictly LIFO in order to be performant (but is approximately LIFO). All profiling data is timestamped anyway, so a LIFO property is unnecessary.

This number is configurable. When registering your server with profiling, you may specify the number of samples that should be stored, like so:

	// Setting StreamStatsSize: 1024 will make profiling store the last 1024
	// RPCs' data (if profiling is enabled, of course).
	profsvc.Init(&profsvc.ProfilingConfig{
		Server:          s,
		StreamStatsSize: 1024,
	})

As an estimate, a typical unary RPC is expected produce ~2-3 KiB of profiling data in memory. This may be useful in estimating how many RPCs worth of data you can afford depending on your memory capacity. For more complex RPCs such as streaming RPCs, each RPC will consume more data. The amount of memory consumed by profiling is mostly independent of the size of messages your application handles.

The generated visualization is flat and has no flows/arrows. How do I distinguish between different RPCs?

Unfortunately, there isn't any way to do this without some changes to the way your application is compiled. This is because gRPC's profiling relies on the Goroutine ID to uniquely identify different components.

To enable this, first apply the following patch to your Go runtime installation directory:

diff --git a/src/runtime/runtime2.go b/src/runtime/runtime2.go
--- a/src/runtime/runtime2.go
+++ b/src/runtime/runtime2.go
@@ -392,6 +392,10 @@ type stack struct {
 	hi uintptr
 }
 
+func Goid() int64 {
+	return getg().goid
+}
+
 type g struct {
 	// Stack parameters.
 	// stack describes the actual stack memory: [stack.lo, stack.hi).

Then, recompile your application with -tags grpcgoid to generate a new binary. This binary should produce profiling data that is much nicer when visualized.

Directories

Path Synopsis
Binary client is an example client.
Binary client is an example client.
Binary server is an example server.
Binary server is an example server.

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